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November 13, 2020January 8, 2023

Machine Learning 101 – Top 200 AWS and Google Certified Machine Learning Specialty Questions and Answers Dumps

AWS machine Learning Specialty Exam Prep MLS-C01

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What are the Top 200 AWS and Google Certified Machine Learning Specialty Questions and Answers Dumps?

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Question1: A machine learning team has several large CSV datasets in Amazon S3. Historically, models built with the Amazon SageMaker Linear Learner algorithm have taken hours to train on similar-sized datasets. The team’s leaders need to accelerate the training process. What can a machine learning specialist do to address this concern?

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A) Use Amazon SageMaker Pipe mode.
B) Use Amazon Machine Learning to train the models.
C) Use Amazon Kinesis to stream the data to Amazon SageMaker.
D) Use AWS Glue to transform the CSV dataset to the JSON format.
ANSWER1:

Notes/Hint1:

Amazon SageMaker Pipe mode streams the data directly to the container, which improves the performance of training jobs. (Refer to this link for supporting information.) In Pipe mode, your training job streams data directly from Amazon S3. Streaming can provide faster start times for training jobs and better throughput. With Pipe mode, you also reduce the size of the Amazon EBS volumes for your training instances. B would not apply in this scenario. C is a streaming ingestion solution, but is not applicable in this scenario. D transforms the data structure.
Reference1: Amazon SageMaker

Question 2) A local university wants to track cars in a parking lot to determine which students are parking in the lot. The university is wanting to ingest videos of the cars parking in near-real time, use machine learning to identify license plates, and store that data in an AWS data store. Which solution meets these requirements with the LEAST amount of development effort?

A) Use Amazon Kinesis Data Streams to ingest the video in near-real time, use the Kinesis Data Streams consumer integrated with Amazon Rekognition Video to process the license plate information, and then store results in DynamoDB.

B) Use Amazon Kinesis Video Streams to ingest the videos in near-real time, use the Kinesis Video Streams integration with Amazon Rekognition Video to identify the license plate information, and then store the results in DynamoDB.

C) Use Amazon Kinesis Data Streams to ingest videos in near-real time, call Amazon Rekognition to identify license plate information, and then store results in DynamoDB.

D) Use Amazon Kinesis Firehose to ingest the video in near-real time and outputs results onto S3. Set up a Lambda function that triggers when a new video is PUT onto S3 to send results to Amazon Rekognition to identify license plate information, and then store results in DynamoDB.

Answer 2)

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Notes/Hint2)

Kinesis Video Streams is used to stream videos in near-real time. Amazon Rekognition Video uses Amazon Kinesis Video Streams to receive and process a video stream. After the videos have been processed by Rekognition we can output the results in DynamoDB.

Reference: Kinesis Video Streams

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Question 3) A term frequency–inverse document frequency (tf–idf) matrix using both unigrams and bigrams is built from a text corpus consisting of the following two sentences:

1. Please call the number below.

2. Please do not call us. What are the dimensions of the tf–idf matrix?

A) (2, 16)

B) (2, 8)

C) (2, 10)

D) (8, 10)

ANSWER3:

Notes/Hint3:

There are 2 sentences, 8 unique unigrams, and 8 unique bigrams, so the result would be (2,16). The phrases are “Please call the number below” and “Please do not call us.” Each word individually (unigram) is “Please,” “call,” ”the,” ”number,” “below,” “do,” “not,” and “us.” The unique bigrams are “Please call,” “call the,” ”the number,” “number below,” “Please do,” “do not,” “not call,” and “call us.” The tf–idf vectorizer is described at this link.

Reference3: tf-idf vertorizer

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Question 4: A company is setting up a system to manage all of the datasets it stores in Amazon S3. The company would like to automate running transformation jobs on the data and maintaining a catalog of the metadata concerning the datasets. The solution should require the least amount of setup and maintenance. Which solution will allow the company to achieve its goals?

A) Create an Amazon EMR cluster with Apache Hive installed. Then, create a Hive metastore and a script to run transformation jobs on a schedule.

B) Create an AWS Glue crawler to populate the AWS Glue Data Catalog. Then, author an AWS Glue ETL job, and set up a schedule for data transformation jobs.

C) Create an Amazon EMR cluster with Apache Spark installed. Then, create an Apache Hive metastore and a script to run transformation jobs on a schedule. D) Create an AWS Data Pipeline that transforms the data. Then, create an Apache Hive metastore and a script to run transformation jobs on a schedule.

ANSWER4:

Notes/Hint4:

AWS Glue is the correct answer because this option requires the least amount of setup and maintenance since it is serverless, and it does not require management of the infrastructure. Refer to this link for supporting information. A, C, and D are all solutions that can solve the problem, but require more steps for configuration, and require higher operational overhead to run and maintain.

Reference4: Glue

Question 5) Which service in the Kinesis family allows you to easily load streaming data into data stores and analytics tools?

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A) Kinesis Firehose

B) Kinesis Streams

C) Kinesis Data Analytics

D) Kinesis Video Streams

ANSWER5:

Notes/Hint5:

Kinesis Firehose is perfect for streaming data into AWS and sending it directly to its final destination – places like S3, Redshift, Elastisearch, and Splunk Instances.

Reference 5): Kinesis Firehose

Question 6) A data scientist is working on optimizing a model during the training process by varying multiple parameters. The data scientist observes that, during multiple runs with identical parameters, the loss function converges to different, yet stable, values. What should the data scientist do to improve the training process?

A) Increase the learning rate. Keep the batch size the same.

B) Reduce the batch size. Decrease the learning rate.

C) Keep the batch size the same. Decrease the learning rate.

D) Do not change the learning rate. Increase the batch size.

Answer 6)
B

Notes 6)

It is most likely that the loss function is very curvy and has multiple local minima where the training is getting stuck. Decreasing the batch size would help the data scientist stochastically get out of the local minima saddles. Decreasing the learning rate would prevent overshooting the global loss function minimum. Refer to the paper at this link for an explanation.
Reference 6) : Here

Question 7) Your organization has a standalone Javascript (Node.js) application that streams data into AWS using Kinesis Data Streams. You notice that they are using the Kinesis API (AWS SDK) over the Kinesis Producer Library (KPL). What might be the reasoning behind this?

A) The Kinesis API (AWS SDK) provides greater functionality over the Kinesis Producer Library.

B) The Kinesis API (AWS SDK) runs faster in Javascript applications over the Kinesis Producer Library.

C) The Kinesis Producer Library must be installed as a Java application to use with Kinesis Data Streams.

D) The Kinesis Producer Library cannot be integrated with a Javascript application because of its asynchronous architecture.

Answer 7)
C

Notes/Hint7:
The KPL must be installed as a Java application before it can be used with your Kinesis Data Streams. There are ways to process KPL serialized data within AWS Lambda, in Java, Node.js, and Python, but not if these answers mentions Lambda.
Reference 7) KPL

Question 8) A data scientist is evaluating different binary classification models. A false positive result is 5 times more expensive (from a business perspective) than a false negative result. The models should be evaluated based on the following criteria:

1) Must have a recall rate of at least 80%

2) Must have a false positive rate of 10% or less

3) Must minimize business costs After creating each binary classification model, the data scientist generates the corresponding confusion matrix. Which confusion matrix represents the model that satisfies the requirements?

A) TN = 91, FP = 9 FN = 22, TP = 78

B) TN = 99, FP = 1 FN = 21, TP = 79

C) TN = 96, FP = 4 FN = 10, TP = 90

D) TN = 98, FP = 2 FN = 18, TP = 82

Answer 8):
D

Notes/Hint 8)

The following calculations are required: TP = True Positive FP = False Positive FN = False Negative TN = True Negative FN = False Negative Recall = TP / (TP + FN) False Positive Rate (FPR) = FP / (FP + TN) Cost = 5 * FP + FN A B C D Recall 78 / (78 + 22) = 0.78 79 / (79 + 21) = 0.79 90 / (90 + 10) = 0.9 82 / (82 + 18) = 0.82 False Positive Rate 9 / (9 + 91) = 0.09 1 / (1 + 99) = 0.01 4 / (4 + 96) = 0.04 2 / (2 + 98) = 0.02 Costs 5 * 9 + 22 = 67 5 * 1 + 21 = 26 5 * 4 + 10 = 30 5 * 2 + 18 = 28 Options C and D have a recall greater than 80% and an FPR less than 10%, but D is the most cost effective. For supporting information, refer to this link.
Reference 8: Here

Question 9) A data scientist uses logistic regression to build a fraud detection model. While the model accuracy is 99%, 90% of the fraud cases are not detected by the model. What action will definitely help the model detect more than 10% of fraud cases?

A) Using undersampling to balance the dataset

B) Decreasing the class probability threshold

C) Using regularization to reduce overfitting

D) Using oversampling to balance the dataset

Answer 9)

Notes 9)

Decreasing the class probability threshold makes the model more sensitive and, therefore, marks more cases as the positive class, which is fraud in this case. This will increase the likelihood of fraud detection. However, it comes at the price of lowering precision. This is covered in the Discussion section of the paper at this link
Reference 9: Here

Question 10) A company is interested in building a fraud detection model. Currently, the data scientist does not have a sufficient amount of information due to the low number of fraud cases. Which method is MOST likely to detect the GREATEST number of valid fraud cases?

A) Oversampling using bootstrapping

B) Undersampling

C) Oversampling using SMOTE

D) Class weight adjustment

Answer 10)

Notes 10)

With datasets that are not fully populated, the Synthetic Minority Over-sampling Technique (SMOTE) adds new information by adding synthetic data points to the minority class. This technique would be the most effective in this scenario. Refer to Section 4.2 at this link for supporting information.
Reference 10) : Here

Question 11) A machine learning engineer is preparing a data frame for a supervised learning task with the Amazon SageMaker Linear Learner algorithm. The ML engineer notices the target label classes are highly imbalanced and multiple feature columns contain missing values. The proportion of missing values across the entire data frame is less than 5%. What should the ML engineer do to minimize bias due to missing values?

A) Replace each missing value by the mean or median across non-missing values in same row.
B) Delete observations that contain missing values because these represent less than 5% of the data.
C) Replace each missing value by the mean or median across non-missing values in the same column.
D) For each feature, approximate the missing values using supervised learning based on other features.

Answer 11)
D

Notes 11)
Use supervised learning to predict missing values based on the values of other features. Different supervised learning approaches might have different performances, but any properly implemented supervised learning approach should provide the same or better approximation than mean or median approximation, as proposed in responses A and C. Supervised learning applied to the imputation of missing values is an active field of research. Refer to this link for an example.
Reference 11): Here

Question 12) A company has collected customer comments on its products, rating them as safe or unsafe, using decision trees. The training dataset has the following features: id, date, full review, full review summary, and a binary safe/unsafe tag. During training, any data sample with missing features was dropped. In a few instances, the test set was found to be missing the full review text field. For this use case, which is the most effective course of action to address test data samples with missing features?
A) Drop the test samples with missing full review text fields, and then run through the test set.
B) Copy the summary text fields and use them to fill in the missing full review text fields, and then run through the test set.
C) Use an algorithm that handles missing data better than decision trees.
D) Generate synthetic data to fill in the fields that are missing data, and then run through the test set.

Answer 12)
B

Notes 12)

In this case, a full review summary usually contains the most descriptive phrases of the entire review and is a valid stand-in for the missing full review text field. For supporting information, refer to page 1627 at this link, and this link and this link.
Reference 12) Here

Question 13) An insurance company needs to automate claim compliance reviews because human reviews are expensive and error-prone. The company has a large set of claims and a compliance label for each. Each claim consists of a few sentences in English, many of which contain complex related information. Management would like to use Amazon SageMaker built-in algorithms to design a machine learning supervised model that can be trained to read each claim and predict if the claim is compliant or not. Which approach should be used to extract features from the claims to be used as inputs for the downstream supervised task?
A) Derive a dictionary of tokens from claims in the entire dataset. Apply one-hot encoding to tokens found in each claim of the training set. Send the derived features space as inputs to an Amazon SageMaker builtin supervised learning algorithm.
B) Apply Amazon SageMaker BlazingText in Word2Vec mode to claims in the training set. Send the derived features space as inputs for the downstream supervised task.
C) Apply Amazon SageMaker BlazingText in classification mode to labeled claims in the training set to derive features for the claims that correspond to the compliant and non-compliant labels, respectively.
D) Apply Amazon SageMaker Object2Vec to claims in the training set. Send the derived features space as inputs for the downstream supervised task.

Answer 13)
D

Notes 13)
Amazon SageMaker Object2Vec generalizes the Word2Vec embedding technique for words to more complex objects, such as sentences and paragraphs. Since the supervised learning task is at the level of whole claims, for which there are labels, and no labels are available at the word level, Object2Vec needs be used instead of Word2Vec.

Reference 13) Amazon SageMaker
Object2Vec
Question 14) You have been tasked with capturing two different types of streaming events. The first event type includes mission-critical data that needs to immediately be processed before operations can continue. The second event type includes data of less importance, but operations can continue without immediately processing. What is the most appropriate solution to record these different types of events?
A) Capture both events with the PutRecords API call.
B) Capture both event types using the Kinesis Producer Library (KPL).
C) Capture the mission critical events with the PutRecords API call and the second event type with the Kinesis Producer Library (KPL).
D) Capture the mission critical events with the Kinesis Producer Library (KPL) and the second event type with the Putrecords API call.

Answer 14)
C

Notes 14)
The question is about sending data to Kinesis synchronously vs. asynchronously. PutRecords is a synchronous send function, so it must be used for the first event type (critical events). The Kinesis Producer Library (KPL) implements an asynchronous send function, so it can be used for the second event type. In this scenario, the reason to use the KPL over the PutRecords API call is because: KPL can incur an additional processing delay of up to RecordMaxBufferedTime within the library (user-configurable). Larger values of RecordMaxBufferedTime results in higher packing efficiencies and better performance. Applications that cannot tolerate this additional delay may need to use the AWS SDK directly. For more information about using the AWS SDK with Kinesis Data Streams, see Developing Producers Using the Amazon Kinesis Data Streams API with the AWS SDK for Java. For more information about RecordMaxBufferedTime and other user-configurable properties of the KPL, see Configuring the Kinesis Producer Library.

Reference 14: KCL vs PutRecords

Question 15) You are collecting clickstream data from an e-commerce website to make near-real time product suggestions for users actively using the site. Which combination of tools can be used to achieve the quickest recommendations and meets all of the requirements?
A) Use Kinesis Data Streams to ingest clickstream data, then use Kinesis Data Analytics to run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions.
B) Use Kinesis Data Firehose to ingest click stream data, then use Kinesis Data Analytics to run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions, then use Lambda to load these results into S3.
C) Use Kinesis Data Streams to ingest clickstream data, then use Lambda to process that data and write it to S3. Once the data is on S3, use Athena to query based on conditions that data and make real time recommendations to users.
D) Use the Kinesis Data Analytics to ingest the clickstream data directly and run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions.

Answer 15)
A

Notes 15)
Kinesis Data Analytics gets its input streaming data from Kinesis Data Streams or Kinesis Data Firehose. You can use Kinesis Data Analytics to run real-time SQL queries on your data. Once certain conditions are met you can trigger Lambda functions to make real time product suggestions to users. It is not important that we store or persist the clickstream data.
Reference 15: Kinesis Data Analytics
Question 16) Which service built by AWS makes it easy to set up a retry mechanism, aggregate records to improve throughput, and automatically submits CloudWatch metrics?
A) Kinesis API (AWS SDK)
B) Kinesis Producer Library (KPL)
C) Kinesis Consumer Library
D) Kinesis Client Library (KCL)
Answer 16)
B

Notes 16)
Although the Kinesis API built into the AWS SDK can be used for all of this, the Kinesis Producer Library (KPL) makes it easy to integrate all of this into your applications.
Reference 16: Kinesis Producer Library (KPL)
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Question 17) You have been tasked with capturing data from an online gaming platform to run analytics on and process through a machine learning pipeline. The data that you are ingesting is players controller inputs every 1 second (up to 10 players in a game) that is in JSON format. The data needs to be ingested through Kinesis Data Streams and the JSON data blob is 100 KB in size. What is the minimum number of shards you can use to successfully ingest this data?
A) 10 shards
B) Greater than 500 shards, so you’ll need to request more shards from AWS
C) 1 shard
D) 100 shards
Answer 17)
C

Notes 17)
In this scenario, there will be a maximum of 10 records per second with a max payload size of 1000 KB (10 records x 100 KB = 1000KB) written to the shard. A single shard can ingest up to 1 MB of data per second, which is enough to ingest the 1000 KB from the streaming game play. Therefor 1 shard is enough to handle the streaming data.
Reference 17: shards
Question 18) Which services in the Kinesis family allows you to analyze streaming data, gain actionable insights, and respond to your business and customer needs in real time?
A) Kinesis Streams
B) Kinesis Firehose
C) Kinesis Video Streams
D) Kinesis Data Analytics
Answer 18)
D

Notes 18)
Kinesis Data Analytics allows you to run real-time SQL queries on your data to gain insights and respond to events in real time.
Reference 18: Kinesis Data Analytics

Question 19) You are a ML specialist needing to collect data from Twitter tweets. Your goal is to collect tweets that include only the name of your company and the tweet body, and store it off into a data store in AWS. What set of tools can you use to stream, transform, and load the data into AWS with the LEAST amount of effort?
A) Setup a Kinesis Data Firehose for data ingestion and immediately write that data to S3. Next, setup a Lambda function to trigger when data lands in S3 to transform it and finally write it to DynamoDB.
B) Setup A Kinesis Data Stream for data ingestion, setup EC2 instances as data consumers to poll and transform the data from the stream. Once the data is transformed, make an API call to write the data to DynamoDB.
C) Setup Kinesis Data Streams for data ingestion. Next, setup Kinesis Data Firehouse to load that data into RedShift. Next, setup a Lambda function to query data using RedShift spectrum and store the results onto DynamoDB.
D) Create a Kinesis Data Stream to ingest the data. Next, setup a Kinesis Data Firehose and use Lambda to transform the data from the Kinesis Data Stream, then use Lambda to write the data to DynamoDB. Finally, use S3 as the data destination for Kinesis Data Firehose.

Answer 19)
A
Notes 19)
All of these could be used to stream, transform, and load the data into an AWS data store. The setup that requires the LEAST amount of effort and moving parts involves setting up a Kinesis Data Firehose to stream the data into S3, have it transformed by Lambda with an S3 trigger, and then written to DynamoDB.
Reference 19: Kinesis Data Firehose to stream the data into S3
Question 20) Which service in the Kinesis family allows you to build custom applications that process or analyze streaming data for specialized needs?
A) Kinesis Firehose
B) Kinesis Streams
C) Kinesis Video Streams
D) Kinesis Data Analytics
Answer 20)
B
Notes 20)
Kinesis Streams allows you to stream data into AWS and build custom applications around that streaming data.
Reference 20: Kinesis Streams
Question21:
Answer21:
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This blog is the best way is the best way to prepare for your upcoming AWS Certified Machine Learning Specialty and Google Certified Professional Machine Learning Engineer exam. With over 100 questions and answers, this blog provides quizzes similar that are very similar to the real exam. It also includes the option to show and hide answers. Additionally, there are machine learning interview questions and detailed answers, as well as cheat sheets and illustrations. This blog is the best way to make sure you are well-prepared for your AWS Certified Machine Learning Specialty Exam.
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Machine learning is an application of artificial intelligence (AI) that provides systems the ability to automatically learn and improve from experience without being explicitly programmed. Machine learning focuses on the development of computer programs that can access data and use it to learn for themselves.
By the end of 2020, 85% of customer interactions will be handled without a human (Call Center, Chatbot, etc…)
61% of marketers say artificial intelligence is the most important aspect of their data strategy.
80% of business and tech leaders say AI already boosts productivity (Robotic Process Automation, Power Automate, etc..)
Current AI technology can boost business productivity by up to 40%
AWS Machine Learning Certification Specialty Exam Prep for iOs Android Windows10/11
AWS machine Learning Specialty Exam Prep MLS-C01
GCP Professional Machine Learning Engineer for iOs, Android, Windows 10/11
Quizzes, Practice Exams: Framing, Architecting, Designing, Developing ML Problems & Solutions, ML Jobs Interview Q&A
GCP Professional Machine Learning Engineer

Azure AI Fundamentals AI-900 Exam Prep App for iOS, Android, Windows10/11
Basics and Advanced Machine Learning Quizzes on Azure, Azure Machine Learning Job Interviews Questions and Answer, ML Cheat Sheets
Azure AI Fundamentals AI-900 Exam Prep
Machine Learning For Dummies App for iOs, Android, Windows10/11
Use this App to learn about Machine Learning and Elevate your Brain with Machine Learning Quizzes, Cheat Sheets, Ml Jobs Interview Questions and Answers updated daily.
Machine Learning For Dummies
What does a Professional Machine Learning Engineer do?
A Professional Machine Learning Engineer designs, builds, and productionizes ML models to solve business challenges using Google Cloud technologies and knowledge of proven ML models and techniques. The ML Engineer collaborates closely with other job roles to ensure long-term success of models. The ML Engineer should be proficient in all aspects of model architecture, data pipeline interaction, and metrics interpretation. The ML Engineer needs familiarity with application development, infrastructure management, data engineering, and security. Through an understanding of training, retraining, deploying, scheduling, monitoring, and improving models, they design and create scalable solutions for optimal performance.
The AWS Certified Machine Learning – Specialty certification is intended for individuals who perform a development or data science role. It validates a candidate’s ability to design, implement, deploy, and maintain machine learning (ML) solutions for given business problems.
This blog covers Machine Learning 101, Top 20 AWS Certified Machine Learning Specialty Questions and Answers, Top 20 Google Professional Machine Learning Engineer Sample Questions, Machine Learning Quizzes, Machine Learning Q&A, Top 10 Machine Learning Algorithms, Machine Learning Latest Hot News, Machine Learning Demos (Ex: Tensorflow Demos)
Below are the Top 100 AWS Certified Machine Learning Specialty Questions and Answers Dumps.
Top

Question1: A machine learning team has several large CSV datasets in Amazon S3. Historically, models built with the Amazon SageMaker Linear Learner algorithm have taken hours to train on similar-sized datasets. The team’s leaders need to accelerate the training process. What can a machine learning specialist do to address this concern?
A) Use Amazon SageMaker Pipe mode.
B) Use Amazon Machine Learning to train the models.
C) Use Amazon Kinesis to stream the data to Amazon SageMaker.
D) Use AWS Glue to transform the CSV dataset to the JSON format.
ANSWER1:
A
Notes/Hint1:

Amazon SageMaker Pipe mode streams the data directly to the container, which improves the performance of training jobs. (Refer to this link for supporting information.) In Pipe mode, your training job streams data directly from Amazon S3. Streaming can provide faster start times for training jobs and better throughput. With Pipe mode, you also reduce the size of the Amazon EBS volumes for your training instances. B would not apply in this scenario. C is a streaming ingestion solution, but is not applicable in this scenario. D transforms the data structure.
Reference1: Amazon SageMaker
Question 2) A local university wants to track cars in a parking lot to determine which students are parking in the lot. The university is wanting to ingest videos of the cars parking in near-real time, use machine learning to identify license plates, and store that data in an AWS data store. Which solution meets these requirements with the LEAST amount of development effort?
A) Use Amazon Kinesis Data Streams to ingest the video in near-real time, use the Kinesis Data Streams consumer integrated with Amazon Rekognition Video to process the license plate information, and then store results in DynamoDB.
B) Use Amazon Kinesis Video Streams to ingest the videos in near-real time, use the Kinesis Video Streams integration with Amazon Rekognition Video to identify the license plate information, and then store the results in DynamoDB.
C) Use Amazon Kinesis Data Streams to ingest videos in near-real time, call Amazon Rekognition to identify license plate information, and then store results in DynamoDB.
D) Use Amazon Kinesis Firehose to ingest the video in near-real time and outputs results onto S3. Set up a Lambda function that triggers when a new video is PUT onto S3 to send results to Amazon Rekognition to identify license plate information, and then store results in DynamoDB.
Answer 2)
B
Notes/Hint2)
Kinesis Video Streams is used to stream videos in near-real time. Amazon Rekognition Video uses Amazon Kinesis Video Streams to receive and process a video stream. After the videos have been processed by Rekognition we can output the results in DynamoDB.
Reference: Kinesis Video Streams
Question 3) A term frequency–inverse document frequency (tf–idf) matrix using both unigrams and bigrams is built from a text corpus consisting of the following two sentences:
1. Please call the number below.
2. Please do not call us. What are the dimensions of the tf–idf matrix?
A) (2, 16)
B) (2, 8)
C) (2, 10)
D) (8, 10)
ANSWER3:
A
Notes/Hint3:
There are 2 sentences, 8 unique unigrams, and 8 unique bigrams, so the result would be (2,16). The phrases are “Please call the number below” and “Please do not call us.” Each word individually (unigram) is “Please,” “call,” ”the,” ”number,” “below,” “do,” “not,” and “us.” The unique bigrams are “Please call,” “call the,” ”the number,” “number below,” “Please do,” “do not,” “not call,” and “call us.” The tf–idf vectorizer is described at this link.
Reference3: tf-idf vertorizer
Question 4: A company is setting up a system to manage all of the datasets it stores in Amazon S3. The company would like to automate running transformation jobs on the data and maintaining a catalog of the metadata concerning the datasets. The solution should require the least amount of setup and maintenance. Which solution will allow the company to achieve its goals?
A) Create an Amazon EMR cluster with Apache Hive installed. Then, create a Hive metastore and a script to run transformation jobs on a schedule.
B) Create an AWS Glue crawler to populate the AWS Glue Data Catalog. Then, author an AWS Glue ETL job, and set up a schedule for data transformation jobs.
C) Create an Amazon EMR cluster with Apache Spark installed. Then, create an Apache Hive metastore and a script to run transformation jobs on a schedule. D) Create an AWS Data Pipeline that transforms the data. Then, create an Apache Hive metastore and a script to run transformation jobs on a schedule.

ANSWER4:
B
Notes/Hint4:
AWS Glue is the correct answer because this option requires the least amount of setup and maintenance since it is serverless, and it does not require management of the infrastructure. Refer to this link for supporting information. A, C, and D are all solutions that can solve the problem, but require more steps for configuration, and require higher operational overhead to run and maintain.
Reference4: Glue
Question 5) Which service in the Kinesis family allows you to easily load streaming data into data stores and analytics tools?
A) Kinesis Firehose
B) Kinesis Streams
C) Kinesis Data Analytics
D) Kinesis Video Streams

ANSWER5:
A
Notes/Hint5:
Kinesis Firehose is perfect for streaming data into AWS and sending it directly to its final destination – places like S3, Redshift, Elastisearch, and Splunk Instances.
Reference 5): Kinesis Firehose
Question 6) A data scientist is working on optimizing a model during the training process by varying multiple parameters. The data scientist observes that, during multiple runs with identical parameters, the loss function converges to different, yet stable, values. What should the data scientist do to improve the training process?
A) Increase the learning rate. Keep the batch size the same.
B) Reduce the batch size. Decrease the learning rate.
C) Keep the batch size the same. Decrease the learning rate.
D) Do not change the learning rate. Increase the batch size.

Answer 6)
B

Notes 6)
It is most likely that the loss function is very curvy and has multiple local minima where the training is getting stuck. Decreasing the batch size would help the data scientist stochastically get out of the local minima saddles. Decreasing the learning rate would prevent overshooting the global loss function minimum. Refer to the paper at this link for an explanation.
Reference 6) : Here
Question 7) Your organization has a standalone Javascript (Node.js) application that streams data into AWS using Kinesis Data Streams. You notice that they are using the Kinesis API (AWS SDK) over the Kinesis Producer Library (KPL). What might be the reasoning behind this?
A) The Kinesis API (AWS SDK) provides greater functionality over the Kinesis Producer Library.
B) The Kinesis API (AWS SDK) runs faster in Javascript applications over the Kinesis Producer Library.
C) The Kinesis Producer Library must be installed as a Java application to use with Kinesis Data Streams.
D) The Kinesis Producer Library cannot be integrated with a Javascript application because of its asynchronous architecture.
Answer 7)
C
Notes/Hint7:
The KPL must be installed as a Java application before it can be used with your Kinesis Data Streams. There are ways to process KPL serialized data within AWS Lambda, in Java, Node.js, and Python, but not if these answers mentions Lambda.
Reference 7) KPL

Question 8) A data scientist is evaluating different binary classification models. A false positive result is 5 times more expensive (from a business perspective) than a false negative result. The models should be evaluated based on the following criteria:
1) Must have a recall rate of at least 80%
2) Must have a false positive rate of 10% or less
3) Must minimize business costs After creating each binary classification model, the data scientist generates the corresponding confusion matrix. Which confusion matrix represents the model that satisfies the requirements?
A) TN = 91, FP = 9 FN = 22, TP = 78
B) TN = 99, FP = 1 FN = 21, TP = 79
C) TN = 96, FP = 4 FN = 10, TP = 90
D) TN = 98, FP = 2 FN = 18, TP = 82

Answer 8):
D

Notes/Hint 8)

The following calculations are required: TP = True Positive FP = False Positive FN = False Negative TN = True Negative FN = False Negative Recall = TP / (TP + FN) False Positive Rate (FPR) = FP / (FP + TN) Cost = 5 * FP + FN A B C D Recall 78 / (78 + 22) = 0.78 79 / (79 + 21) = 0.79 90 / (90 + 10) = 0.9 82 / (82 + 18) = 0.82 False Positive Rate 9 / (9 + 91) = 0.09 1 / (1 + 99) = 0.01 4 / (4 + 96) = 0.04 2 / (2 + 98) = 0.02 Costs 5 * 9 + 22 = 67 5 * 1 + 21 = 26 5 * 4 + 10 = 30 5 * 2 + 18 = 28 Options C and D have a recall greater than 80% and an FPR less than 10%, but D is the most cost effective. For supporting information, refer to this link.
Reference 8: Here

Question 9) A data scientist uses logistic regression to build a fraud detection model. While the model accuracy is 99%, 90% of the fraud cases are not detected by the model. What action will definitely help the model detect more than 10% of fraud cases?
A) Using undersampling to balance the dataset
B) Decreasing the class probability threshold
C) Using regularization to reduce overfitting
D) Using oversampling to balance the dataset

Answer 9)
B

Notes 9)

Decreasing the class probability threshold makes the model more sensitive and, therefore, marks more cases as the positive class, which is fraud in this case. This will increase the likelihood of fraud detection. However, it comes at the price of lowering precision. This is covered in the Discussion section of the paper at this link
Reference 9: Here

Question 10) A company is interested in building a fraud detection model. Currently, the data scientist does not have a sufficient amount of information due to the low number of fraud cases. Which method is MOST likely to detect the GREATEST number of valid fraud cases?
A) Oversampling using bootstrapping
B) Undersampling
C) Oversampling using SMOTE
D) Class weight adjustment

Answer 10)
C

Notes 10)

With datasets that are not fully populated, the Synthetic Minority Over-sampling Technique (SMOTE) adds new information by adding synthetic data points to the minority class. This technique would be the most effective in this scenario. Refer to Section 4.2 at this link for supporting information.
Reference 10) : Here

Question 11) A machine learning engineer is preparing a data frame for a supervised learning task with the Amazon SageMaker Linear Learner algorithm. The ML engineer notices the target label classes are highly imbalanced and multiple feature columns contain missing values. The proportion of missing values across the entire data frame is less than 5%. What should the ML engineer do to minimize bias due to missing values?

A) Replace each missing value by the mean or median across non-missing values in same row.
B) Delete observations that contain missing values because these represent less than 5% of the data.
C) Replace each missing value by the mean or median across non-missing values in the same column.
D) For each feature, approximate the missing values using supervised learning based on other features.

Answer 11)
D

Notes 11)
Use supervised learning to predict missing values based on the values of other features. Different supervised learning approaches might have different performances, but any properly implemented supervised learning approach should provide the same or better approximation than mean or median approximation, as proposed in responses A and C. Supervised learning applied to the imputation of missing values is an active field of research. Refer to this link for an example.
Reference 11): Here

Question 12) A company has collected customer comments on its products, rating them as safe or unsafe, using decision trees. The training dataset has the following features: id, date, full review, full review summary, and a binary safe/unsafe tag. During training, any data sample with missing features was dropped. In a few instances, the test set was found to be missing the full review text field. For this use case, which is the most effective course of action to address test data samples with missing features?
A) Drop the test samples with missing full review text fields, and then run through the test set.
B) Copy the summary text fields and use them to fill in the missing full review text fields, and then run through the test set.
C) Use an algorithm that handles missing data better than decision trees.
D) Generate synthetic data to fill in the fields that are missing data, and then run through the test set.

Answer 12)
B

Notes 12)
In this case, a full review summary usually contains the most descriptive phrases of the entire review and is a valid stand-in for the missing full review text field. For supporting information, refer to page 1627 at this link, and this link and this link.
Reference 12) Here

Question 13) An insurance company needs to automate claim compliance reviews because human reviews are expensive and error-prone. The company has a large set of claims and a compliance label for each. Each claim consists of a few sentences in English, many of which contain complex related information. Management would like to use Amazon SageMaker built-in algorithms to design a machine learning supervised model that can be trained to read each claim and predict if the claim is compliant or not. Which approach should be used to extract features from the claims to be used as inputs for the downstream supervised task?
A) Derive a dictionary of tokens from claims in the entire dataset. Apply one-hot encoding to tokens found in each claim of the training set. Send the derived features space as inputs to an Amazon SageMaker builtin supervised learning algorithm.
B) Apply Amazon SageMaker BlazingText in Word2Vec mode to claims in the training set. Send the derived features space as inputs for the downstream supervised task.
C) Apply Amazon SageMaker BlazingText in classification mode to labeled claims in the training set to derive features for the claims that correspond to the compliant and non-compliant labels, respectively.
D) Apply Amazon SageMaker Object2Vec to claims in the training set. Send the derived features space as inputs for the downstream supervised task.

Answer 13)
D

Notes 13)
Amazon SageMaker Object2Vec generalizes the Word2Vec embedding technique for words to more complex objects, such as sentences and paragraphs. Since the supervised learning task is at the level of whole claims, for which there are labels, and no labels are available at the word level, Object2Vec needs be used instead of Word2Vec.
Reference 13) Amazon SageMaker
Object2Vec
Question 14) You have been tasked with capturing two different types of streaming events. The first event type includes mission-critical data that needs to immediately be processed before operations can continue. The second event type includes data of less importance, but operations can continue without immediately processing. What is the most appropriate solution to record these different types of events?
A) Capture both events with the PutRecords API call.
B) Capture both event types using the Kinesis Producer Library (KPL).
C) Capture the mission critical events with the PutRecords API call and the second event type with the Kinesis Producer Library (KPL).
D) Capture the mission critical events with the Kinesis Producer Library (KPL) and the second event type with the Putrecords API call.

Answer 14)
C

Notes 14)
The question is about sending data to Kinesis synchronously vs. asynchronously. PutRecords is a synchronous send function, so it must be used for the first event type (critical events). The Kinesis Producer Library (KPL) implements an asynchronous send function, so it can be used for the second event type. In this scenario, the reason to use the KPL over the PutRecords API call is because: KPL can incur an additional processing delay of up to RecordMaxBufferedTime within the library (user-configurable). Larger values of RecordMaxBufferedTime results in higher packing efficiencies and better performance. Applications that cannot tolerate this additional delay may need to use the AWS SDK directly. For more information about using the AWS SDK with Kinesis Data Streams, see Developing Producers Using the Amazon Kinesis Data Streams API with the AWS SDK for Java. For more information about RecordMaxBufferedTime and other user-configurable properties of the KPL, see Configuring the Kinesis Producer Library.
Reference 14: KCL vs PutRecords

Question 15) You are collecting clickstream data from an e-commerce website to make near-real time product suggestions for users actively using the site. Which combination of tools can be used to achieve the quickest recommendations and meets all of the requirements?
A) Use Kinesis Data Streams to ingest clickstream data, then use Kinesis Data Analytics to run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions.
B) Use Kinesis Data Firehose to ingest click stream data, then use Kinesis Data Analytics to run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions, then use Lambda to load these results into S3.
C) Use Kinesis Data Streams to ingest clickstream data, then use Lambda to process that data and write it to S3. Once the data is on S3, use Athena to query based on conditions that data and make real time recommendations to users.
D) Use the Kinesis Data Analytics to ingest the clickstream data directly and run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions.

Answer 15)
A

Notes 15)
Kinesis Data Analytics gets its input streaming data from Kinesis Data Streams or Kinesis Data Firehose. You can use Kinesis Data Analytics to run real-time SQL queries on your data. Once certain conditions are met you can trigger Lambda functions to make real time product suggestions to users. It is not important that we store or persist the clickstream data.
Reference 15: Kinesis Data Analytics
Question 16) Which service built by AWS makes it easy to set up a retry mechanism, aggregate records to improve throughput, and automatically submits CloudWatch metrics?
A) Kinesis API (AWS SDK)
B) Kinesis Producer Library (KPL)
C) Kinesis Consumer Library
D) Kinesis Client Library (KCL)
Answer 16)
B

Notes 16)
Although the Kinesis API built into the AWS SDK can be used for all of this, the Kinesis Producer Library (KPL) makes it easy to integrate all of this into your applications.
Reference 16: Kinesis Producer Library (KPL)
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Question 17) You have been tasked with capturing data from an online gaming platform to run analytics on and process through a machine learning pipeline. The data that you are ingesting is players controller inputs every 1 second (up to 10 players in a game) that is in JSON format. The data needs to be ingested through Kinesis Data Streams and the JSON data blob is 100 KB in size. What is the minimum number of shards you can use to successfully ingest this data?
A) 10 shards
B) Greater than 500 shards, so you’ll need to request more shards from AWS
C) 1 shard
D) 100 shards
Answer 17)
C

Notes 17)
In this scenario, there will be a maximum of 10 records per second with a max payload size of 1000 KB (10 records x 100 KB = 1000KB) written to the shard. A single shard can ingest up to 1 MB of data per second, which is enough to ingest the 1000 KB from the streaming game play. Therefor 1 shard is enough to handle the streaming data.
Reference 17: shards
Question 18) Which services in the Kinesis family allows you to analyze streaming data, gain actionable insights, and respond to your business and customer needs in real time?
A) Kinesis Streams
B) Kinesis Firehose
C) Kinesis Video Streams
D) Kinesis Data Analytics
Answer 18)
D

Notes 18)
Kinesis Data Analytics allows you to run real-time SQL queries on your data to gain insights and respond to events in real time.
Reference 18: Kinesis Data Analytics

Question 19) You are a ML specialist needing to collect data from Twitter tweets. Your goal is to collect tweets that include only the name of your company and the tweet body, and store it off into a data store in AWS. What set of tools can you use to stream, transform, and load the data into AWS with the LEAST amount of effort?
A) Setup a Kinesis Data Firehose for data ingestion and immediately write that data to S3. Next, setup a Lambda function to trigger when data lands in S3 to transform it and finally write it to DynamoDB.
B) Setup A Kinesis Data Stream for data ingestion, setup EC2 instances as data consumers to poll and transform the data from the stream. Once the data is transformed, make an API call to write the data to DynamoDB.
C) Setup Kinesis Data Streams for data ingestion. Next, setup Kinesis Data Firehouse to load that data into RedShift. Next, setup a Lambda function to query data using RedShift spectrum and store the results onto DynamoDB.
D) Create a Kinesis Data Stream to ingest the data. Next, setup a Kinesis Data Firehose and use Lambda to transform the data from the Kinesis Data Stream, then use Lambda to write the data to DynamoDB. Finally, use S3 as the data destination for Kinesis Data Firehose.

Answer 19)
A
Notes 19)
All of these could be used to stream, transform, and load the data into an AWS data store. The setup that requires the LEAST amount of effort and moving parts involves setting up a Kinesis Data Firehose to stream the data into S3, have it transformed by Lambda with an S3 trigger, and then written to DynamoDB.
Reference 19: Kinesis Data Firehose to stream the data into S3
Question 20) Which service in the Kinesis family allows you to build custom applications that process or analyze streaming data for specialized needs?
A) Kinesis Firehose
B) Kinesis Streams
C) Kinesis Video Streams
D) Kinesis Data Analytics
Answer 20)
B
Notes 20)
Kinesis Streams allows you to stream data into AWS and build custom applications around that streaming data.
Reference 20: Kinesis Streams
Question21:
Answer21:

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What are the Top 100 AWS and Google Certified Machine Learning Specialty Questions and Answers Dumps?
This blog is the best way is the best way to prepare for your upcoming AWS Certified Machine Learning Specialty and Google Certified Professional Machine Learning Engineer exam. With over 100 questions and answers, this blog provides quizzes similar that are very similar to the real exam. It also includes the option to show and hide answers. Additionally, there are machine learning interview questions and detailed answers, as well as cheat sheets and illustrations. This blog is the best way to make sure you are well-prepared for your AWS Certified Machine Learning Specialty Exam.
The typical Google Machine Learning Engineer salary is $147,218. Machine Learning Engineer salaries at Google can range from $110,000 – $152,183.
Machine learning is an application of artificial intelligence (AI) that provides systems the ability to automatically learn and improve from experience without being explicitly programmed. Machine learning focuses on the development of computer programs that can access data and use it to learn for themselves.
By the end of 2020, 85% of customer interactions will be handled without a human (Call Center, Chatbot, etc…)
61% of marketers say artificial intelligence is the most important aspect of their data strategy.
80% of business and tech leaders say AI already boosts productivity (Robotic Process Automation, Power Automate, etc..)
Current AI technology can boost business productivity by up to 40%
AWS Machine Learning Certification Specialty Exam Prep for iOs Android Windows10/11
AWS machine Learning Specialty Exam Prep MLS-C01
GCP Professional Machine Learning Engineer for iOs, Android, Windows 10/11
Quizzes, Practice Exams: Framing, Architecting, Designing, Developing ML Problems & Solutions, ML Jobs Interview Q&A
GCP Professional Machine Learning Engineer

Azure AI Fundamentals AI-900 Exam Prep App for iOS, Android, Windows10/11
Basics and Advanced Machine Learning Quizzes on Azure, Azure Machine Learning Job Interviews Questions and Answer, ML Cheat Sheets
Azure AI Fundamentals AI-900 Exam Prep
Machine Learning For Dummies App for iOs, Android, Windows10/11
Use this App to learn about Machine Learning and Elevate your Brain with Machine Learning Quizzes, Cheat Sheets, Ml Jobs Interview Questions and Answers updated daily.
Machine Learning For Dummies
What does a Professional Machine Learning Engineer do?
A Professional Machine Learning Engineer designs, builds, and productionizes ML models to solve business challenges using Google Cloud technologies and knowledge of proven ML models and techniques. The ML Engineer collaborates closely with other job roles to ensure long-term success of models. The ML Engineer should be proficient in all aspects of model architecture, data pipeline interaction, and metrics interpretation. The ML Engineer needs familiarity with application development, infrastructure management, data engineering, and security. Through an understanding of training, retraining, deploying, scheduling, monitoring, and improving models, they design and create scalable solutions for optimal performance.
The AWS Certified Machine Learning – Specialty certification is intended for individuals who perform a development or data science role. It validates a candidate’s ability to design, implement, deploy, and maintain machine learning (ML) solutions for given business problems.
This blog covers Machine Learning 101, Top 20 AWS Certified Machine Learning Specialty Questions and Answers, Top 20 Google Professional Machine Learning Engineer Sample Questions, Machine Learning Quizzes, Machine Learning Q&A, Top 10 Machine Learning Algorithms, Machine Learning Latest Hot News, Machine Learning Demos (Ex: Tensorflow Demos)
Below are the Top 100 AWS Certified Machine Learning Specialty Questions and Answers Dumps.
Top

Question1: A machine learning team has several large CSV datasets in Amazon S3. Historically, models built with the Amazon SageMaker Linear Learner algorithm have taken hours to train on similar-sized datasets. The team’s leaders need to accelerate the training process. What can a machine learning specialist do to address this concern?
A) Use Amazon SageMaker Pipe mode.
B) Use Amazon Machine Learning to train the models.
C) Use Amazon Kinesis to stream the data to Amazon SageMaker.
D) Use AWS Glue to transform the CSV dataset to the JSON format.
ANSWER1:
A
Notes/Hint1:

Amazon SageMaker Pipe mode streams the data directly to the container, which improves the performance of training jobs. (Refer to this link for supporting information.) In Pipe mode, your training job streams data directly from Amazon S3. Streaming can provide faster start times for training jobs and better throughput. With Pipe mode, you also reduce the size of the Amazon EBS volumes for your training instances. B would not apply in this scenario. C is a streaming ingestion solution, but is not applicable in this scenario. D transforms the data structure.
Reference1: Amazon SageMaker
Question 2) A local university wants to track cars in a parking lot to determine which students are parking in the lot. The university is wanting to ingest videos of the cars parking in near-real time, use machine learning to identify license plates, and store that data in an AWS data store. Which solution meets these requirements with the LEAST amount of development effort?
A) Use Amazon Kinesis Data Streams to ingest the video in near-real time, use the Kinesis Data Streams consumer integrated with Amazon Rekognition Video to process the license plate information, and then store results in DynamoDB.
B) Use Amazon Kinesis Video Streams to ingest the videos in near-real time, use the Kinesis Video Streams integration with Amazon Rekognition Video to identify the license plate information, and then store the results in DynamoDB.
C) Use Amazon Kinesis Data Streams to ingest videos in near-real time, call Amazon Rekognition to identify license plate information, and then store results in DynamoDB.
D) Use Amazon Kinesis Firehose to ingest the video in near-real time and outputs results onto S3. Set up a Lambda function that triggers when a new video is PUT onto S3 to send results to Amazon Rekognition to identify license plate information, and then store results in DynamoDB.
Answer 2)
B
Notes/Hint2)
Kinesis Video Streams is used to stream videos in near-real time. Amazon Rekognition Video uses Amazon Kinesis Video Streams to receive and process a video stream. After the videos have been processed by Rekognition we can output the results in DynamoDB.
Reference: Kinesis Video Streams
Question 3) A term frequency–inverse document frequency (tf–idf) matrix using both unigrams and bigrams is built from a text corpus consisting of the following two sentences:
1. Please call the number below.
2. Please do not call us. What are the dimensions of the tf–idf matrix?
A) (2, 16)
B) (2, 8)
C) (2, 10)
D) (8, 10)
ANSWER3:
A
Notes/Hint3:
There are 2 sentences, 8 unique unigrams, and 8 unique bigrams, so the result would be (2,16). The phrases are “Please call the number below” and “Please do not call us.” Each word individually (unigram) is “Please,” “call,” ”the,” ”number,” “below,” “do,” “not,” and “us.” The unique bigrams are “Please call,” “call the,” ”the number,” “number below,” “Please do,” “do not,” “not call,” and “call us.” The tf–idf vectorizer is described at this link.
Reference3: tf-idf vertorizer
Question 4: A company is setting up a system to manage all of the datasets it stores in Amazon S3. The company would like to automate running transformation jobs on the data and maintaining a catalog of the metadata concerning the datasets. The solution should require the least amount of setup and maintenance. Which solution will allow the company to achieve its goals?
A) Create an Amazon EMR cluster with Apache Hive installed. Then, create a Hive metastore and a script to run transformation jobs on a schedule.
B) Create an AWS Glue crawler to populate the AWS Glue Data Catalog. Then, author an AWS Glue ETL job, and set up a schedule for data transformation jobs.
C) Create an Amazon EMR cluster with Apache Spark installed. Then, create an Apache Hive metastore and a script to run transformation jobs on a schedule. D) Create an AWS Data Pipeline that transforms the data. Then, create an Apache Hive metastore and a script to run transformation jobs on a schedule.

ANSWER4:
B
Notes/Hint4:
AWS Glue is the correct answer because this option requires the least amount of setup and maintenance since it is serverless, and it does not require management of the infrastructure. Refer to this link for supporting information. A, C, and D are all solutions that can solve the problem, but require more steps for configuration, and require higher operational overhead to run and maintain.
Reference4: Glue
Question 5) Which service in the Kinesis family allows you to easily load streaming data into data stores and analytics tools?
A) Kinesis Firehose
B) Kinesis Streams
C) Kinesis Data Analytics
D) Kinesis Video Streams

ANSWER5:
A
Notes/Hint5:
Kinesis Firehose is perfect for streaming data into AWS and sending it directly to its final destination – places like S3, Redshift, Elastisearch, and Splunk Instances.
Reference 5): Kinesis Firehose
Question 6) A data scientist is working on optimizing a model during the training process by varying multiple parameters. The data scientist observes that, during multiple runs with identical parameters, the loss function converges to different, yet stable, values. What should the data scientist do to improve the training process?
A) Increase the learning rate. Keep the batch size the same.
B) Reduce the batch size. Decrease the learning rate.
C) Keep the batch size the same. Decrease the learning rate.
D) Do not change the learning rate. Increase the batch size.

Answer 6)
B

Notes 6)
It is most likely that the loss function is very curvy and has multiple local minima where the training is getting stuck. Decreasing the batch size would help the data scientist stochastically get out of the local minima saddles. Decreasing the learning rate would prevent overshooting the global loss function minimum. Refer to the paper at this link for an explanation.
Reference 6) : Here
Question 7) Your organization has a standalone Javascript (Node.js) application that streams data into AWS using Kinesis Data Streams. You notice that they are using the Kinesis API (AWS SDK) over the Kinesis Producer Library (KPL). What might be the reasoning behind this?
A) The Kinesis API (AWS SDK) provides greater functionality over the Kinesis Producer Library.
B) The Kinesis API (AWS SDK) runs faster in Javascript applications over the Kinesis Producer Library.
C) The Kinesis Producer Library must be installed as a Java application to use with Kinesis Data Streams.
D) The Kinesis Producer Library cannot be integrated with a Javascript application because of its asynchronous architecture.
Answer 7)
C
Notes/Hint7:
The KPL must be installed as a Java application before it can be used with your Kinesis Data Streams. There are ways to process KPL serialized data within AWS Lambda, in Java, Node.js, and Python, but not if these answers mentions Lambda.
Reference 7) KPL

Question 8) A data scientist is evaluating different binary classification models. A false positive result is 5 times more expensive (from a business perspective) than a false negative result. The models should be evaluated based on the following criteria:
1) Must have a recall rate of at least 80%
2) Must have a false positive rate of 10% or less
3) Must minimize business costs After creating each binary classification model, the data scientist generates the corresponding confusion matrix. Which confusion matrix represents the model that satisfies the requirements?
A) TN = 91, FP = 9 FN = 22, TP = 78
B) TN = 99, FP = 1 FN = 21, TP = 79
C) TN = 96, FP = 4 FN = 10, TP = 90
D) TN = 98, FP = 2 FN = 18, TP = 82

Answer 8):
D

Notes/Hint 8)

The following calculations are required: TP = True Positive FP = False Positive FN = False Negative TN = True Negative FN = False Negative Recall = TP / (TP + FN) False Positive Rate (FPR) = FP / (FP + TN) Cost = 5 * FP + FN A B C D Recall 78 / (78 + 22) = 0.78 79 / (79 + 21) = 0.79 90 / (90 + 10) = 0.9 82 / (82 + 18) = 0.82 False Positive Rate 9 / (9 + 91) = 0.09 1 / (1 + 99) = 0.01 4 / (4 + 96) = 0.04 2 / (2 + 98) = 0.02 Costs 5 * 9 + 22 = 67 5 * 1 + 21 = 26 5 * 4 + 10 = 30 5 * 2 + 18 = 28 Options C and D have a recall greater than 80% and an FPR less than 10%, but D is the most cost effective. For supporting information, refer to this link.
Reference 8: Here

Question 9) A data scientist uses logistic regression to build a fraud detection model. While the model accuracy is 99%, 90% of the fraud cases are not detected by the model. What action will definitely help the model detect more than 10% of fraud cases?
A) Using undersampling to balance the dataset
B) Decreasing the class probability threshold
C) Using regularization to reduce overfitting
D) Using oversampling to balance the dataset

Answer 9)
B

Notes 9)

Decreasing the class probability threshold makes the model more sensitive and, therefore, marks more cases as the positive class, which is fraud in this case. This will increase the likelihood of fraud detection. However, it comes at the price of lowering precision. This is covered in the Discussion section of the paper at this link
Reference 9: Here

Question 10) A company is interested in building a fraud detection model. Currently, the data scientist does not have a sufficient amount of information due to the low number of fraud cases. Which method is MOST likely to detect the GREATEST number of valid fraud cases?
A) Oversampling using bootstrapping
B) Undersampling
C) Oversampling using SMOTE
D) Class weight adjustment

Answer 10)
C

Notes 10)

With datasets that are not fully populated, the Synthetic Minority Over-sampling Technique (SMOTE) adds new information by adding synthetic data points to the minority class. This technique would be the most effective in this scenario. Refer to Section 4.2 at this link for supporting information.
Reference 10) : Here

Question 11) A machine learning engineer is preparing a data frame for a supervised learning task with the Amazon SageMaker Linear Learner algorithm. The ML engineer notices the target label classes are highly imbalanced and multiple feature columns contain missing values. The proportion of missing values across the entire data frame is less than 5%. What should the ML engineer do to minimize bias due to missing values?

A) Replace each missing value by the mean or median across non-missing values in same row.
B) Delete observations that contain missing values because these represent less than 5% of the data.
C) Replace each missing value by the mean or median across non-missing values in the same column.
D) For each feature, approximate the missing values using supervised learning based on other features.

Answer 11)
D

Notes 11)
Use supervised learning to predict missing values based on the values of other features. Different supervised learning approaches might have different performances, but any properly implemented supervised learning approach should provide the same or better approximation than mean or median approximation, as proposed in responses A and C. Supervised learning applied to the imputation of missing values is an active field of research. Refer to this link for an example.
Reference 11): Here

Question 12) A company has collected customer comments on its products, rating them as safe or unsafe, using decision trees. The training dataset has the following features: id, date, full review, full review summary, and a binary safe/unsafe tag. During training, any data sample with missing features was dropped. In a few instances, the test set was found to be missing the full review text field. For this use case, which is the most effective course of action to address test data samples with missing features?
A) Drop the test samples with missing full review text fields, and then run through the test set.
B) Copy the summary text fields and use them to fill in the missing full review text fields, and then run through the test set.
C) Use an algorithm that handles missing data better than decision trees.
D) Generate synthetic data to fill in the fields that are missing data, and then run through the test set.

Answer 12)
B

Notes 12)
In this case, a full review summary usually contains the most descriptive phrases of the entire review and is a valid stand-in for the missing full review text field. For supporting information, refer to page 1627 at this link, and this link and this link.
Reference 12) Here

Question 13) An insurance company needs to automate claim compliance reviews because human reviews are expensive and error-prone. The company has a large set of claims and a compliance label for each. Each claim consists of a few sentences in English, many of which contain complex related information. Management would like to use Amazon SageMaker built-in algorithms to design a machine learning supervised model that can be trained to read each claim and predict if the claim is compliant or not. Which approach should be used to extract features from the claims to be used as inputs for the downstream supervised task?
A) Derive a dictionary of tokens from claims in the entire dataset. Apply one-hot encoding to tokens found in each claim of the training set. Send the derived features space as inputs to an Amazon SageMaker builtin supervised learning algorithm.
B) Apply Amazon SageMaker BlazingText in Word2Vec mode to claims in the training set. Send the derived features space as inputs for the downstream supervised task.
C) Apply Amazon SageMaker BlazingText in classification mode to labeled claims in the training set to derive features for the claims that correspond to the compliant and non-compliant labels, respectively.
D) Apply Amazon SageMaker Object2Vec to claims in the training set. Send the derived features space as inputs for the downstream supervised task.

Answer 13)
D

Notes 13)
Amazon SageMaker Object2Vec generalizes the Word2Vec embedding technique for words to more complex objects, such as sentences and paragraphs. Since the supervised learning task is at the level of whole claims, for which there are labels, and no labels are available at the word level, Object2Vec needs be used instead of Word2Vec.
Reference 13) Amazon SageMaker
Object2Vec
Question 14) You have been tasked with capturing two different types of streaming events. The first event type includes mission-critical data that needs to immediately be processed before operations can continue. The second event type includes data of less importance, but operations can continue without immediately processing. What is the most appropriate solution to record these different types of events?
A) Capture both events with the PutRecords API call.
B) Capture both event types using the Kinesis Producer Library (KPL).
C) Capture the mission critical events with the PutRecords API call and the second event type with the Kinesis Producer Library (KPL).
D) Capture the mission critical events with the Kinesis Producer Library (KPL) and the second event type with the Putrecords API call.

Answer 14)
C

Notes 14)
The question is about sending data to Kinesis synchronously vs. asynchronously. PutRecords is a synchronous send function, so it must be used for the first event type (critical events). The Kinesis Producer Library (KPL) implements an asynchronous send function, so it can be used for the second event type. In this scenario, the reason to use the KPL over the PutRecords API call is because: KPL can incur an additional processing delay of up to RecordMaxBufferedTime within the library (user-configurable). Larger values of RecordMaxBufferedTime results in higher packing efficiencies and better performance. Applications that cannot tolerate this additional delay may need to use the AWS SDK directly. For more information about using the AWS SDK with Kinesis Data Streams, see Developing Producers Using the Amazon Kinesis Data Streams API with the AWS SDK for Java. For more information about RecordMaxBufferedTime and other user-configurable properties of the KPL, see Configuring the Kinesis Producer Library.
Reference 14: KCL vs PutRecords

Question 15) You are collecting clickstream data from an e-commerce website to make near-real time product suggestions for users actively using the site. Which combination of tools can be used to achieve the quickest recommendations and meets all of the requirements?
A) Use Kinesis Data Streams to ingest clickstream data, then use Kinesis Data Analytics to run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions.
B) Use Kinesis Data Firehose to ingest click stream data, then use Kinesis Data Analytics to run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions, then use Lambda to load these results into S3.
C) Use Kinesis Data Streams to ingest clickstream data, then use Lambda to process that data and write it to S3. Once the data is on S3, use Athena to query based on conditions that data and make real time recommendations to users.
D) Use the Kinesis Data Analytics to ingest the clickstream data directly and run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions.

Answer 15)
A

Notes 15)
Kinesis Data Analytics gets its input streaming data from Kinesis Data Streams or Kinesis Data Firehose. You can use Kinesis Data Analytics to run real-time SQL queries on your data. Once certain conditions are met you can trigger Lambda functions to make real time product suggestions to users. It is not important that we store or persist the clickstream data.
Reference 15: Kinesis Data Analytics
Question 16) Which service built by AWS makes it easy to set up a retry mechanism, aggregate records to improve throughput, and automatically submits CloudWatch metrics?
A) Kinesis API (AWS SDK)
B) Kinesis Producer Library (KPL)
C) Kinesis Consumer Library
D) Kinesis Client Library (KCL)
Answer 16)
B

Notes 16)
Although the Kinesis API built into the AWS SDK can be used for all of this, the Kinesis Producer Library (KPL) makes it easy to integrate all of this into your applications.
Reference 16: Kinesis Producer Library (KPL)
[appbox appstore 1611045854-iphone screenshots]
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Question 17) You have been tasked with capturing data from an online gaming platform to run analytics on and process through a machine learning pipeline. The data that you are ingesting is players controller inputs every 1 second (up to 10 players in a game) that is in JSON format. The data needs to be ingested through Kinesis Data Streams and the JSON data blob is 100 KB in size. What is the minimum number of shards you can use to successfully ingest this data?
A) 10 shards
B) Greater than 500 shards, so you’ll need to request more shards from AWS
C) 1 shard
D) 100 shards
Answer 17)
C

Notes 17)
In this scenario, there will be a maximum of 10 records per second with a max payload size of 1000 KB (10 records x 100 KB = 1000KB) written to the shard. A single shard can ingest up to 1 MB of data per second, which is enough to ingest the 1000 KB from the streaming game play. Therefor 1 shard is enough to handle the streaming data.
Reference 17: shards
Question 18) Which services in the Kinesis family allows you to analyze streaming data, gain actionable insights, and respond to your business and customer needs in real time?
A) Kinesis Streams
B) Kinesis Firehose
C) Kinesis Video Streams
D) Kinesis Data Analytics
Answer 18)
D

Notes 18)
Kinesis Data Analytics allows you to run real-time SQL queries on your data to gain insights and respond to events in real time.
Reference 18: Kinesis Data Analytics

Question 19) You are a ML specialist needing to collect data from Twitter tweets. Your goal is to collect tweets that include only the name of your company and the tweet body, and store it off into a data store in AWS. What set of tools can you use to stream, transform, and load the data into AWS with the LEAST amount of effort?
A) Setup a Kinesis Data Firehose for data ingestion and immediately write that data to S3. Next, setup a Lambda function to trigger when data lands in S3 to transform it and finally write it to DynamoDB.
B) Setup A Kinesis Data Stream for data ingestion, setup EC2 instances as data consumers to poll and transform the data from the stream. Once the data is transformed, make an API call to write the data to DynamoDB.
C) Setup Kinesis Data Streams for data ingestion. Next, setup Kinesis Data Firehouse to load that data into RedShift. Next, setup a Lambda function to query data using RedShift spectrum and store the results onto DynamoDB.
D) Create a Kinesis Data Stream to ingest the data. Next, setup a Kinesis Data Firehose and use Lambda to transform the data from the Kinesis Data Stream, then use Lambda to write the data to DynamoDB. Finally, use S3 as the data destination for Kinesis Data Firehose.

Answer 19)
A
Notes 19)
All of these could be used to stream, transform, and load the data into an AWS data store. The setup that requires the LEAST amount of effort and moving parts involves setting up a Kinesis Data Firehose to stream the data into S3, have it transformed by Lambda with an S3 trigger, and then written to DynamoDB.
Reference 19: Kinesis Data Firehose to stream the data into S3
Question 20) Which service in the Kinesis family allows you to build custom applications that process or analyze streaming data for specialized needs?
A) Kinesis Firehose
B) Kinesis Streams
C) Kinesis Video Streams
D) Kinesis Data Analytics
Answer 20)
B
Notes 20)
Kinesis Streams allows you to stream data into AWS and build custom applications around that streaming data.
Reference 20: Kinesis Streams
Question21:
Answer21:
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Top

Question1: A machine learning team has several large CSV datasets in Amazon S3. Historically, models built with the Amazon SageMaker Linear Learner algorithm have taken hours to train on similar-sized datasets. The team’s leaders need to accelerate the training process. What can a machine learning specialist do to address this concern?
A) Use Amazon SageMaker Pipe mode.
B) Use Amazon Machine Learning to train the models.
C) Use Amazon Kinesis to stream the data to Amazon SageMaker.
D) Use AWS Glue to transform the CSV dataset to the JSON format.
ANSWER1:
A
Notes/Hint1:

Amazon SageMaker Pipe mode streams the data directly to the container, which improves the performance of training jobs. (Refer to this link for supporting information.) In Pipe mode, your training job streams data directly from Amazon S3. Streaming can provide faster start times for training jobs and better throughput. With Pipe mode, you also reduce the size of the Amazon EBS volumes for your training instances. B would not apply in this scenario. C is a streaming ingestion solution, but is not applicable in this scenario. D transforms the data structure.
Reference1: Amazon SageMaker
Question 2) A local university wants to track cars in a parking lot to determine which students are parking in the lot. The university is wanting to ingest videos of the cars parking in near-real time, use machine learning to identify license plates, and store that data in an AWS data store. Which solution meets these requirements with the LEAST amount of development effort?
A) Use Amazon Kinesis Data Streams to ingest the video in near-real time, use the Kinesis Data Streams consumer integrated with Amazon Rekognition Video to process the license plate information, and then store results in DynamoDB.
B) Use Amazon Kinesis Video Streams to ingest the videos in near-real time, use the Kinesis Video Streams integration with Amazon Rekognition Video to identify the license plate information, and then store the results in DynamoDB.
C) Use Amazon Kinesis Data Streams to ingest videos in near-real time, call Amazon Rekognition to identify license plate information, and then store results in DynamoDB.
D) Use Amazon Kinesis Firehose to ingest the video in near-real time and outputs results onto S3. Set up a Lambda function that triggers when a new video is PUT onto S3 to send results to Amazon Rekognition to identify license plate information, and then store results in DynamoDB.
Answer 2)
B
Notes/Hint2)
Kinesis Video Streams is used to stream videos in near-real time. Amazon Rekognition Video uses Amazon Kinesis Video Streams to receive and process a video stream. After the videos have been processed by Rekognition we can output the results in DynamoDB.
Reference: Kinesis Video Streams
Question 3) A term frequency–inverse document frequency (tf–idf) matrix using both unigrams and bigrams is built from a text corpus consisting of the following two sentences:
1. Please call the number below.
2. Please do not call us. What are the dimensions of the tf–idf matrix?
A) (2, 16)
B) (2, 8)
C) (2, 10)
D) (8, 10)
ANSWER3:
A
Notes/Hint3:
There are 2 sentences, 8 unique unigrams, and 8 unique bigrams, so the result would be (2,16). The phrases are “Please call the number below” and “Please do not call us.” Each word individually (unigram) is “Please,” “call,” ”the,” ”number,” “below,” “do,” “not,” and “us.” The unique bigrams are “Please call,” “call the,” ”the number,” “number below,” “Please do,” “do not,” “not call,” and “call us.” The tf–idf vectorizer is described at this link.
Reference3: tf-idf vertorizer
Question 4: A company is setting up a system to manage all of the datasets it stores in Amazon S3. The company would like to automate running transformation jobs on the data and maintaining a catalog of the metadata concerning the datasets. The solution should require the least amount of setup and maintenance. Which solution will allow the company to achieve its goals?
A) Create an Amazon EMR cluster with Apache Hive installed. Then, create a Hive metastore and a script to run transformation jobs on a schedule.
B) Create an AWS Glue crawler to populate the AWS Glue Data Catalog. Then, author an AWS Glue ETL job, and set up a schedule for data transformation jobs.
C) Create an Amazon EMR cluster with Apache Spark installed. Then, create an Apache Hive metastore and a script to run transformation jobs on a schedule. D) Create an AWS Data Pipeline that transforms the data. Then, create an Apache Hive metastore and a script to run transformation jobs on a schedule.

ANSWER4:
B
Notes/Hint4:
AWS Glue is the correct answer because this option requires the least amount of setup and maintenance since it is serverless, and it does not require management of the infrastructure. Refer to this link for supporting information. A, C, and D are all solutions that can solve the problem, but require more steps for configuration, and require higher operational overhead to run and maintain.
Reference4: Glue
Question 5) Which service in the Kinesis family allows you to easily load streaming data into data stores and analytics tools?
A) Kinesis Firehose
B) Kinesis Streams
C) Kinesis Data Analytics
D) Kinesis Video Streams

ANSWER5:
A
Notes/Hint5:
Kinesis Firehose is perfect for streaming data into AWS and sending it directly to its final destination – places like S3, Redshift, Elastisearch, and Splunk Instances.
Reference 5): Kinesis Firehose
Question 6) A data scientist is working on optimizing a model during the training process by varying multiple parameters. The data scientist observes that, during multiple runs with identical parameters, the loss function converges to different, yet stable, values. What should the data scientist do to improve the training process?
A) Increase the learning rate. Keep the batch size the same.
B) Reduce the batch size. Decrease the learning rate.
C) Keep the batch size the same. Decrease the learning rate.
D) Do not change the learning rate. Increase the batch size.

Answer 6)
B

Notes 6)
It is most likely that the loss function is very curvy and has multiple local minima where the training is getting stuck. Decreasing the batch size would help the data scientist stochastically get out of the local minima saddles. Decreasing the learning rate would prevent overshooting the global loss function minimum. Refer to the paper at this link for an explanation.
Reference 6) : Here
Question 7) Your organization has a standalone Javascript (Node.js) application that streams data into AWS using Kinesis Data Streams. You notice that they are using the Kinesis API (AWS SDK) over the Kinesis Producer Library (KPL). What might be the reasoning behind this?
A) The Kinesis API (AWS SDK) provides greater functionality over the Kinesis Producer Library.
B) The Kinesis API (AWS SDK) runs faster in Javascript applications over the Kinesis Producer Library.
C) The Kinesis Producer Library must be installed as a Java application to use with Kinesis Data Streams.
D) The Kinesis Producer Library cannot be integrated with a Javascript application because of its asynchronous architecture.
Answer 7)
C
Notes/Hint7:
The KPL must be installed as a Java application before it can be used with your Kinesis Data Streams. There are ways to process KPL serialized data within AWS Lambda, in Java, Node.js, and Python, but not if these answers mentions Lambda.
Reference 7) KPL

Question 8) A data scientist is evaluating different binary classification models. A false positive result is 5 times more expensive (from a business perspective) than a false negative result. The models should be evaluated based on the following criteria:
1) Must have a recall rate of at least 80%
2) Must have a false positive rate of 10% or less
3) Must minimize business costs After creating each binary classification model, the data scientist generates the corresponding confusion matrix. Which confusion matrix represents the model that satisfies the requirements?
A) TN = 91, FP = 9 FN = 22, TP = 78
B) TN = 99, FP = 1 FN = 21, TP = 79
C) TN = 96, FP = 4 FN = 10, TP = 90
D) TN = 98, FP = 2 FN = 18, TP = 82

Answer 8):
D

Notes/Hint 8)

The following calculations are required: TP = True Positive FP = False Positive FN = False Negative TN = True Negative FN = False Negative Recall = TP / (TP + FN) False Positive Rate (FPR) = FP / (FP + TN) Cost = 5 * FP + FN A B C D Recall 78 / (78 + 22) = 0.78 79 / (79 + 21) = 0.79 90 / (90 + 10) = 0.9 82 / (82 + 18) = 0.82 False Positive Rate 9 / (9 + 91) = 0.09 1 / (1 + 99) = 0.01 4 / (4 + 96) = 0.04 2 / (2 + 98) = 0.02 Costs 5 * 9 + 22 = 67 5 * 1 + 21 = 26 5 * 4 + 10 = 30 5 * 2 + 18 = 28 Options C and D have a recall greater than 80% and an FPR less than 10%, but D is the most cost effective. For supporting information, refer to this link.
Reference 8: Here

Question 9) A data scientist uses logistic regression to build a fraud detection model. While the model accuracy is 99%, 90% of the fraud cases are not detected by the model. What action will definitely help the model detect more than 10% of fraud cases?
A) Using undersampling to balance the dataset
B) Decreasing the class probability threshold
C) Using regularization to reduce overfitting
D) Using oversampling to balance the dataset

Answer 9)
B

Notes 9)

Decreasing the class probability threshold makes the model more sensitive and, therefore, marks more cases as the positive class, which is fraud in this case. This will increase the likelihood of fraud detection. However, it comes at the price of lowering precision. This is covered in the Discussion section of the paper at this link
Reference 9: Here

Question 10) A company is interested in building a fraud detection model. Currently, the data scientist does not have a sufficient amount of information due to the low number of fraud cases. Which method is MOST likely to detect the GREATEST number of valid fraud cases?
A) Oversampling using bootstrapping
B) Undersampling
C) Oversampling using SMOTE
D) Class weight adjustment

Answer 10)
C

Notes 10)

With datasets that are not fully populated, the Synthetic Minority Over-sampling Technique (SMOTE) adds new information by adding synthetic data points to the minority class. This technique would be the most effective in this scenario. Refer to Section 4.2 at this link for supporting information.
Reference 10) : Here

Question 11) A machine learning engineer is preparing a data frame for a supervised learning task with the Amazon SageMaker Linear Learner algorithm. The ML engineer notices the target label classes are highly imbalanced and multiple feature columns contain missing values. The proportion of missing values across the entire data frame is less than 5%. What should the ML engineer do to minimize bias due to missing values?

A) Replace each missing value by the mean or median across non-missing values in same row.
B) Delete observations that contain missing values because these represent less than 5% of the data.
C) Replace each missing value by the mean or median across non-missing values in the same column.
D) For each feature, approximate the missing values using supervised learning based on other features.

Answer 11)
D

Notes 11)
Use supervised learning to predict missing values based on the values of other features. Different supervised learning approaches might have different performances, but any properly implemented supervised learning approach should provide the same or better approximation than mean or median approximation, as proposed in responses A and C. Supervised learning applied to the imputation of missing values is an active field of research. Refer to this link for an example.
Reference 11): Here

Question 12) A company has collected customer comments on its products, rating them as safe or unsafe, using decision trees. The training dataset has the following features: id, date, full review, full review summary, and a binary safe/unsafe tag. During training, any data sample with missing features was dropped. In a few instances, the test set was found to be missing the full review text field. For this use case, which is the most effective course of action to address test data samples with missing features?
A) Drop the test samples with missing full review text fields, and then run through the test set.
B) Copy the summary text fields and use them to fill in the missing full review text fields, and then run through the test set.
C) Use an algorithm that handles missing data better than decision trees.
D) Generate synthetic data to fill in the fields that are missing data, and then run through the test set.

Answer 12)
B

Notes 12)
In this case, a full review summary usually contains the most descriptive phrases of the entire review and is a valid stand-in for the missing full review text field. For supporting information, refer to page 1627 at this link, and this link and this link.
Reference 12) Here

Question 13) An insurance company needs to automate claim compliance reviews because human reviews are expensive and error-prone. The company has a large set of claims and a compliance label for each. Each claim consists of a few sentences in English, many of which contain complex related information. Management would like to use Amazon SageMaker built-in algorithms to design a machine learning supervised model that can be trained to read each claim and predict if the claim is compliant or not. Which approach should be used to extract features from the claims to be used as inputs for the downstream supervised task?

A) Derive a dictionary of tokens from claims in the entire dataset. Apply one-hot encoding to tokens found in each claim of the training set. Send the derived features space as inputs to an Amazon SageMaker builtin supervised learning algorithm.

B) Apply Amazon SageMaker BlazingText in Word2Vec mode to claims in the training set. Send the derived features space as inputs for the downstream supervised task.

C) Apply Amazon SageMaker BlazingText in classification mode to labeled claims in the training set to derive features for the claims that correspond to the compliant and non-compliant labels, respectively.

D) Apply Amazon SageMaker Object2Vec to claims in the training set. Send the derived features space as inputs for the downstream supervised task.

Answer 13)
D

Notes 13)
Amazon SageMaker Object2Vec generalizes the Word2Vec embedding technique for words to more complex objects, such as sentences and paragraphs. Since the supervised learning task is at the level of whole claims, for which there are labels, and no labels are available at the word level, Object2Vec needs be used instead of Word2Vec.
Reference 13) Amazon SageMaker
Object2Vec
Question 14) You have been tasked with capturing two different types of streaming events. The first event type includes mission-critical data that needs to immediately be processed before operations can continue. The second event type includes data of less importance, but operations can continue without immediately processing. What is the most appropriate solution to record these different types of events?
A) Capture both events with the PutRecords API call.
B) Capture both event types using the Kinesis Producer Library (KPL).
C) Capture the mission critical events with the PutRecords API call and the second event type with the Kinesis Producer Library (KPL).
D) Capture the mission critical events with the Kinesis Producer Library (KPL) and the second event type with the Putrecords API call.

Answer 14)
C

Notes 14)
The question is about sending data to Kinesis synchronously vs. asynchronously. PutRecords is a synchronous send function, so it must be used for the first event type (critical events). The Kinesis Producer Library (KPL) implements an asynchronous send function, so it can be used for the second event type. In this scenario, the reason to use the KPL over the PutRecords API call is because: KPL can incur an additional processing delay of up to RecordMaxBufferedTime within the library (user-configurable). Larger values of RecordMaxBufferedTime results in higher packing efficiencies and better performance. Applications that cannot tolerate this additional delay may need to use the AWS SDK directly. For more information about using the AWS SDK with Kinesis Data Streams, see Developing Producers Using the Amazon Kinesis Data Streams API with the AWS SDK for Java. For more information about RecordMaxBufferedTime and other user-configurable properties of the KPL, see Configuring the Kinesis Producer Library.
Reference 14: KCL vs PutRecords

Question 15) You are collecting clickstream data from an e-commerce website to make near-real time product suggestions for users actively using the site. Which combination of tools can be used to achieve the quickest recommendations and meets all of the requirements?
A) Use Kinesis Data Streams to ingest clickstream data, then use Kinesis Data Analytics to run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions.

B) Use Kinesis Data Firehose to ingest click stream data, then use Kinesis Data Analytics to run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions, then use Lambda to load these results into S3.

C) Use Kinesis Data Streams to ingest clickstream data, then use Lambda to process that data and write it to S3. Once the data is on S3, use Athena to query based on conditions that data and make real time recommendations to users.

D) Use the Kinesis Data Analytics to ingest the clickstream data directly and run real time SQL queries to gain actionable insights and trigger real-time recommendations with AWS Lambda functions based on conditions.

Answer 15)
A

Notes 15)
Kinesis Data Analytics gets its input streaming data from Kinesis Data Streams or Kinesis Data Firehose. You can use Kinesis Data Analytics to run real-time SQL queries on your data. Once certain conditions are met you can trigger Lambda functions to make real time product suggestions to users. It is not important that we store or persist the clickstream data.
Reference 15: Kinesis Data Analytics
Question 16) Which service built by AWS makes it easy to set up a retry mechanism, aggregate records to improve throughput, and automatically submits CloudWatch metrics?
A) Kinesis API (AWS SDK)
B) Kinesis Producer Library (KPL)
C) Kinesis Consumer Library
D) Kinesis Client Library (KCL)
Answer 16)
B

Notes 16)
Although the Kinesis API built into the AWS SDK can be used for all of this, the Kinesis Producer Library (KPL) makes it easy to integrate all of this into your applications.
Reference 16: Kinesis Producer Library (KPL)
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Question 17) You have been tasked with capturing data from an online gaming platform to run analytics on and process through a machine learning pipeline. The data that you are ingesting is players controller inputs every 1 second (up to 10 players in a game) that is in JSON format. The data needs to be ingested through Kinesis Data Streams and the JSON data blob is 100 KB in size. What is the minimum number of shards you can use to successfully ingest this data?
A) 10 shards
B) Greater than 500 shards, so you’ll need to request more shards from AWS
C) 1 shard
D) 100 shards
Answer 17)
C

Notes 17)
In this scenario, there will be a maximum of 10 records per second with a max payload size of 1000 KB (10 records x 100 KB = 1000KB) written to the shard. A single shard can ingest up to 1 MB of data per second, which is enough to ingest the 1000 KB from the streaming game play. Therefor 1 shard is enough to handle the streaming data.
Reference 17: shards
Question 18) Which services in the Kinesis family allows you to analyze streaming data, gain actionable insights, and respond to your business and customer needs in real time?
A) Kinesis Streams
B) Kinesis Firehose
C) Kinesis Video Streams
D) Kinesis Data Analytics
Answer 18)
D

Notes 18)
Kinesis Data Analytics allows you to run real-time SQL queries on your data to gain insights and respond to events in real time.
Reference 18: Kinesis Data Analytics

Question 19) You are a ML specialist needing to collect data from Twitter tweets. Your goal is to collect tweets that include only the name of your company and the tweet body, and store it off into a data store in AWS. What set of tools can you use to stream, transform, and load the data into AWS with the LEAST amount of effort?
A) Setup a Kinesis Data Firehose for data ingestion and immediately write that data to S3. Next, setup a Lambda function to trigger when data lands in S3 to transform it and finally write it to DynamoDB.
B) Setup A Kinesis Data Stream for data ingestion, setup EC2 instances as data consumers to poll and transform the data from the stream. Once the data is transformed, make an API call to write the data to DynamoDB.
C) Setup Kinesis Data Streams for data ingestion. Next, setup Kinesis Data Firehouse to load that data into RedShift. Next, setup a Lambda function to query data using RedShift spectrum and store the results onto DynamoDB.
D) Create a Kinesis Data Stream to ingest the data. Next, setup a Kinesis Data Firehose and use Lambda to transform the data from the Kinesis Data Stream, then use Lambda to write the data to DynamoDB. Finally, use S3 as the data destination for Kinesis Data Firehose.

Answer 19)
A
Notes 19)
All of these could be used to stream, transform, and load the data into an AWS data store. The setup that requires the LEAST amount of effort and moving parts involves setting up a Kinesis Data Firehose to stream the data into S3, have it transformed by Lambda with an S3 trigger, and then written to DynamoDB.
Reference 19: Kinesis Data Firehose to stream the data into S3
Question 20) Which service in the Kinesis family allows you to build custom applications that process or analyze streaming data for specialized needs?
A) Kinesis Firehose
B) Kinesis Streams
C) Kinesis Video Streams
D) Kinesis Data Analytics
Answer 20)
B
Notes 20)
Kinesis Streams allows you to stream data into AWS and build custom applications around that streaming data.
Reference 20: Kinesis Streams
Question21: Of the following, which is an example of machine learning? (Select TWO.)
A) Calculating the shortest route from current location to the destination
B) Optimizing product pricing based on real-time sales data
C) Sentiment analysis of text on product reviews
D) A loan approval system that classifies applicants entirely based on credit score
Answer21:
B and C
Notes 21:
Optimizing product pricing based on real-time sales data and Sentiment analysis of text on product reviews.
Reference: https://enoumen.com/2021/10/21/machine-learning-engineer-interview-questions-and-answers/

Question22:Which of the following is an appropriate use case for unsupervised learning?
A) Partitioning an image of a street scene into multiple segments
B) Finding an optimal path out of a maze
C) Identifying clusters of housing sales based on related data points
D) Analyzing sentiment of social media posts
Answer22:
C
Notes 22:
Identifying clusters of housing sales based on related data points
Question23:
Answer23:

Notes 23:
Question24: A Djamgatech retail company wants to deploy a machine learning model to predict the demand for a product using sales data from the past 5 years. What is the MOST efficient solution that the company should implement first?
A) Regression
B) Multi-class classification
C) Binary class classification
D) N/A
Answer24:
A
Notes 24:
Reference: https://enoumen.com/2021/10/21/machine-learning-engineer-interview-questions-and-answers/
Question25: In which phase of the ML pipeline do you analyze the business requirements and re-frame that information into a machine learning context.
A) Problem formulation
B) Model training
C) Deployment
D)
Data preprocessing
Answer25:
A
Notes 25:
Problem formulation
Reference: https://enoumen.com/2021/10/21/machine-learning-engineer-interview-questions-and-answers/
iOs: https://apps.apple.com/ca/app/aws-machine-learning-prep-pro/id1611045854
Windows: https://www.microsoft.com/en-ca/p/aws-machine-learning-mls-c01-specialty-certification-exam-prep/9n8rl80hvm4t
Android/Amazon: https://www.amazon.com/gp/product/B09TZ4H8V6
AWS MLS-C01 Machine Learning Exam Prep
Quizzes, Practice Exams: Modeling, Data Engineering, Vision, Exploratory Data Analysis, ML Ops, Cheat Sheets, ML Jobs Interview Q&A
Use this App to learn about Machine Learning on AWS and prepare for the AWS Machine Learning Specialty Certification MLS-C01.
Earning AWS Certified Machine Learning Specialty validates expertise in building, training, tuning, and deploying machine learning (ML) models on AWS.
The App provides hundreds of quizzes and practice exam about:
– Machine Learning Operation on AWS
– Modelling
– Data Engineering
– Computer Vision,
– Exploratory Data Analysis,
– ML implementation & Operations
– Machine Learning Basics Questions and Answers
– Machine Learning Advanced Questions and Answers
– Scorecard
– Countdown timer
– Machine Learning Cheat Sheets
– Machine Learning Interview Questions and Answers
– Machine Learning Latest News
The App covers Machine Learning Basics and Advanced topics including: NLP, Computer Vision, Python, linear regression, logistic regression, Sampling, dataset, statistical interaction, selection bias, non-Gaussian distribution, bias-variance trade-off, Normal Distribution, correlation and covariance, Point Estimates and Confidence Interval, A/B Testing, p-value, statistical power of sensitivity, over-fitting and under-fitting, regularization, Law of Large Numbers, Confounding Variables, Survivorship Bias, univariate, bivariate and multivariate, Resampling, ROC curve, TF/IDF vectorization, Cluster Sampling, etc.
Domain 1: Data Engineering
Create data repositories for machine learning.
Identify data sources (e.g., content and location, primary sources such as user data)
Determine storage mediums (e.g., DB, Data Lake, S3, EFS, EBS)
Identify and implement a data ingestion solution.
Data job styles/types (batch load, streaming)
Data ingestion pipelines (Batch-based ML workloads and streaming-based ML workloads), etc.
Domain 2: Exploratory Data Analysis
Sanitize and prepare data for modeling.
Perform feature engineering.
Analyze and visualize data for machine learning.
Domain 3: Modeling
Frame business problems as machine learning problems.
Select the appropriate model(s) for a given machine learning problem.
Train machine learning models.
Perform hyperparameter optimization.
Evaluate machine learning models.
Domain 4: Machine Learning Implementation and Operations
Build machine learning solutions for performance, availability, scalability, resiliency, and fault tolerance.
Recommend and implement the appropriate machine learning services and features for a given problem.
Apply basic AWS security practices to machine learning solutions.
Deploy and operationalize machine learning solutions.
Machine Learning Services covered:
Amazon Comprehend
AWS Deep Learning AMIs (DLAMI)
AWS DeepLens
Amazon Forecast
Amazon Fraud Detector
Amazon Lex
Amazon Polly
Amazon Rekognition
Amazon SageMaker
Amazon Textract
Amazon Transcribe
Amazon Translate
Other Services and topics covered are:
Ingestion/Collection
Processing/ETL
Data analysis/visualization
Model training
Model deployment/inference
Operational
AWS ML application services
Language relevant to ML (for example, Python, Java, Scala, R, SQL)
Notebooks and integrated development environments (IDEs),
S3, SageMaker, Kinesis, Lake Formation, Athena, Kibana, Redshift, Textract, EMR, Glue, SageMaker, CSV, JSON, IMG, parquet or databases, Amazon Athena
Amazon EC2, Amazon Elastic Container Registry (Amazon ECR), Amazon Elastic Container Service, Amazon Elastic Kubernetes Service , Amazon Redshift
Sagemaker API Explained:
AWS Certified Machine Learning Engineer Specialty Questions and Answers:
Question1: An advertising and analytics company uses machine learning to predict user response to online advertisements using a custom XGBoost model. The company wants to improve its ML pipeline by porting its training and inference code, written in R, to Amazon SageMaker, and do so with minimal changes to the existing code.
Answer1: Use the Build Your Own Container (BYOC) Amazon Sagemaker option.
Create a new docker container with the existing code. Register the container in Amazon Elastic Container registry. with the existing code. Register the container in Amazon Elastic Container Registry. Finally run the training and inference jobs using this container.
Question2: Which feature of Amazon SageMaker can you use for preprocessing the data?

Amazon SageMaker training jobs
Amazon SageMaker hyperaparameter tuning
Amazon SageMaker notebook instances
Amazon SageMaker endpoints
Answer2: Amazon Sagemaker Notebook instances
Amazon SageMaker enables developers and data scientists to build, train, tune, and deploy machine learning (ML) models at scale. You can deploy trained ML models for real-time or batch predictions on unseen data, a process known as inference. However, in most cases, the raw input data must be preprocessed and can’t be used directly for making predictions. This is because most ML models expect the data in a predefined format, so the raw data needs to be first cleaned and formatted in order for the ML model to process the data. You can use the Amazon SageMaker built-in Scikit-learn library for preprocessing input data and then use the Amazon SageMaker built-in Linear Learner algorithm for predictions.
Question3: What setting, when creating an Amazon SageMaker notebook instance, can you use to install libraries and import data?
Answer3: LifeCycle Configuration
Question4: How to Choose the right Sagemaker built-in algorithm?
How to chose the right built in algorithm in SageMaker?
Guide to choosing the right unsupervised learning algorithm

Choosing the right ML algorithm based on Data Type

Choosing the right ML algo based on data type
This is a general guide for choosing which algorithm to use depending on what business problem you have and what data you have.

Top
Top 10 Google Professional Machine Learning Engineer Sample Questions
Question 1: You work for a textile manufacturer and have been asked to build a model to detect and classify fabric defects. You trained a machine learning model with high recall based on high resolution images taken at the end of the production line. You want quality control inspectors to gain trust in your model. Which technique should you use to understand the rationale of your classifier?
A. Use K-fold cross validation to understand how the model performs on different test datasets.
B. Use the Integrated Gradients method to efficiently compute feature attributions for each predicted image.
C. Use PCA (Principal Component Analysis) to reduce the original feature set to a smaller set of easily understood features.
D. Use k-means clustering to group similar images together, and calculate the Davies-Bouldin index to evaluate the separation between clusters.
Answer 1)
B
Notes 1)
B is correct because it identifies the pixel of the input image that leads to the classification of the image itself.
Question 2: You need to write a generic test to verify whether Dense Neural Network (DNN) models automatically released by your team have a sufficient number of parameters to learn the task for which they were built. What should you do?
A. Train the model for a few iterations, and check for NaN values.

B. Train the model for a few iterations, and verify that the loss is constant.

C. Train a simple linear model, and determine if the DNN model outperforms it.

D. Train the model with no regularization, and verify that the loss function is close to zero.

Answer 2)
D
Notes 2)
D is correct because the test can check that the model has enough parameters to memorize the task.
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Question 3: Your team is using a TensorFlow Inception-v3 CNN model pretrained on ImageNet for an image classification prediction challenge on 10,000 images. You will use AI Platform to perform the model training. What TensorFlow distribution strategy and AI Platform training job configuration should you use to train the model and optimize for wall-clock time?

A. Default Strategy; Custom tier with a single master node and four v100 GPUs.

B. One Device Strategy; Custom tier with a single master node and four v100 GPUs.

C. One Device Strategy; Custom tier with a single master node and eight v100 GPUs.

D. Central Storage Strategy; Custom tier with a single master node and four v100 GPUs.

Answer 3)
D
Notes 3)
D is correct because this is the only strategy that can perform distributed training; albeit there is only a single copy of the variables on the CPU host.
Question 4: You work on a team where the process for deploying a model into production starts with data scientists training different versions of models in a Kubeflow pipeline. The workflow then stores the new model artifact into the corresponding Cloud Storage bucket. You need to build the next steps of the pipeline after the submitted model is ready to be tested and deployed in production on AI Platform. How should you configure the architecture before deploying the model to production?

A. Deploy model in test environment -> Validate model -> Create a new AI Platform model version

B. Validate model -> Deploy model in test environment -> Create a new AI Platform model version

C. Create a new AI Platform model version -> Validate model -> Deploy model in test environment

D. Create a new AI Platform model version – > Deploy model in test environment -> Validate model

Answer 4)
A

Notes 4)
A is correct because the model can be validated after it is deployed to the test environment, and the release version is established before the model is deployed in production.

Question 5: You work for a maintenance company and have built and trained a deep learning model that identifies defects based on thermal images of underground electric cables. Your dataset contains 10,000 images, 100 of which contain visible defects. How should you evaluate the performance of the model on a test dataset?

A. Calculate the Area Under the Curve (AUC) value.

B. Calculate the number of true positive results predicted by the model.

C. Calculate the fraction of images predicted by the model to have a visible defect.

D. Calculate the Cosine Similarity to compare the model’s performance on the test dataset to the model’s performance on the training dataset.

Answer 5)
A

Notes 5)
A is correct because it is scale-invariant. AUC measures how well predictions are ranked, rather than their absolute values. AUC is also classification-threshold invariant. It measures the quality of the model’s predictions irrespective of what classification threshold is chosen.

Question 6: You work for a manufacturing company that owns a high-value machine which has several machine settings and multiple sensors. A history of the machine’s hourly sensor readings and known failure event data are stored in BigQuery. You need to predict if the machine will fail within the next 3 days in order to schedule maintenance before the machine fails. Which data preparation and model training steps should you take?

A. Data preparation: Daily max value feature engineering with DataPrep; Model training: AutoML classification with BQML

B. Data preparation: Daily min value feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to True

C. Data preparation: Rolling average feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to False

D. Data preparation: Rolling average feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to True
Answer 6)
D

Notes 6)
D is correct because it uses the rolling average of the sensor data and balances the weights using the BQML auto class weight balance parameter.

Question 7: You are an ML engineer at a media company. You need to build an ML model to analyze video content frame-by-frame, identify objects, and alert users if there is inappropriate content. Which Google Cloud products should you use to build this project?

A. Pub/Sub, Cloud Function, Cloud Vision API

B. Pub/Sub, Cloud IoT, Dataflow, Cloud Vision API, Cloud Logging

C. Pub/Sub, Cloud Function, Video Intelligence API, Cloud Logging

D. Pub/Sub, Cloud Function, AutoML Video Intelligence, Cloud Logging

Answer 7)
C

Notes 7)
C is correct as Video Intelligence API can find inappropriate components and other components satisfy the requirements of real-time processing and notification.

Question 8: You work for a large retailer. You want to use ML to forecast future sales leveraging 10 years of historical sales data. The historical data is stored in Cloud Storage in Avro format. You want to rapidly experiment with all the available data. How should you build and train your model for the sales forecast?

A. Load data into BigQuery and use the ARIMA model type on BigQuery ML.

B. Convert the data into CSV format and create a regression model on AutoML Tables.

C. Convert the data into TFRecords and create an RNN model on TensorFlow on AI Platform Notebooks.

D. Convert and refactor the data into CSV format and use the built-in XGBoost algorithm on AI Platform Training.

Answer 8)
A

Notes 8)
A is correct because BigQuery ML is designed for fast and rapid experimentation and it is possible to use federated queries to read data directly from Cloud Storage. Moreover, ARIMA is considered one of the best in class for time series forecasting.

Question 9) You need to build an object detection model for a small startup company to identify if and where the company’s logo appears in an image. You were given a large repository of images, some with logos and some without. These images are not yet labelled. You need to label these pictures, and then train and deploy the model. What should you do?

A. Use Google Cloud’s Data Labelling Service to label your data. Use AutoML Object Detection to train and deploy the model.

B. Use Vision API to detect and identify logos in pictures and use it as a label. Use AI Platform to build and train a convolutional neural network.

C. Create two folders: one where the logo appears and one where it doesn’t. Manually place images in each folder. Use AI Platform to build and train a convolutional neural network.

D. Create two folders: one where the logo appears and one where it doesn’t. Manually place images in each folder. Use AI Platform to build and train a real time object detection model.

Answer 9)
A

Notes 9)
A is correct as this will allow you to easily create a request for a labelling task and deploy a high-performance model.

Question 10) You work for a large financial institution that is planning to use Dialogflow to create a chatbot for the company’s mobile app. You have reviewed old chat logs and tagged each conversation for intent based on each customer’s stated intention for contacting customer service. About 70% of customer inquiries are simple requests that are solved within 10 intents. The remaining 30% of inquiries require much longer and more complicated requests. Which intents should you automate first?
A. Automate a blend of the shortest and longest intents to be representative of all intents.

B. Automate the more complicated requests first because those require more of the agents’ time.

C. Automate the 10 intents that cover 70% of the requests so that live agents can handle the more complicated requests.

D. Automate intents in places where common words such as “payment” only appear once to avoid confusing the software.
Answer 10)
C

Notes 10)
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Machine Learning Q&A Part I:
What is best cloud solution for deep learning?
Google.
Azure and AWS are second class citizens in this area.
Sure, AWS has 70% of the market.
Sure, Azure is the easiest turn key and super user friendly.
But, the king of machine learning in the cloud is GCP.
GCP = Google Cloud Platform
Google has the largest data science team in the world, not mention they have Hinton.
Let’s forgot for a minute they created TensorFlow and give it away.
Let’s just talk about building a real world model with data that doesn’t fit into a excel spreadsheet.
The vast majority of applied machine learning is supervised and that means we need data.
Not just normal data, we need very clean highly structured data.
Where’s the easiest place in the world to upload and model a Petabyte of structured data? BigQuery of course.
Why BigQuery? I don’t have to do anything but upload my data. No spinning up RedShit clusters or whatever I have to do in Azure, just upload and massage data with my familiar SQL. If I do have to wrangle my data it won’t take my six months to update 5 rows here, minutes usually.
Then, you’ll need a front end. Cloud datalab is a Jupyter notebook, which is good because I don’t want nor do I need anything else.
Then, with a single line of code I connect by datalab (Jupyter) notebook to my data in BigQuery and build away.
I’ve worked in all three and the only thing I care about is getting to my job the fastest and right now that means I build my models in GCP.
If you’re new to machine learning don’t start in GCP or any cloud vendor for that matter. Start learning Python from the comfort of your laptop.
The course below is free to the first 20.
The Complete Python Course for Machine Learning Engineers
What are list of machine learning classification techniques?
Here, I want to share the best research paper on Machine Learning classification methods, titled ‘Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?’, published in the ‘Journal of Machine Learning Research’.
This paper nicely explained 179 classification techniques and applied them on 121 data sets thus sharing small summary of the paper:
Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?

https://jmlr.org/papers/v15/delgado14a.html

The paper evaluated 179 classifiers arising from 17 ML families (discriminant analysis, Bayesian, neural networks, support vector machines, decision trees, rule-based classifiers, boosting, bagging, stacking, random forests and other ensembles, generalized linear models, nearest neighbours, partial least squares and principal component regression, logistic and multinomial regression, multiple adaptive regression splines and other methods), implemented in Weka, R ( with and without the caret package), C and Matlab, including all the relevant classifiers available today.
Experiments used total 121 data sets , which represent the whole UCI data base (excluding the large-scale problems) and other own real problems, in order to achieve significant conclusions about the classifier behaviour, not dependent on the data set collection.
The whole data set and partitions are available from: http://persoal.citius.usc.es/manuel.fernandez.delgado/papers/jmlr/data.tar.gz
The classifiers most likely to be the bests are the random forest (RF) versions, the best of which (implemented in R and accessed via caret) achieves 94.1% of the maximum accuracy overcoming 90% in the 84.3% of the data sets. However, the difference is not statistically significant with the second best, the SVM with Gaussian kernel implemented in C using LibSVM, which achieves 92.3% of the maximum accuracy. A few models are clearly better than the remaining ones: random forest, SVM with Gaussian and polynomial kernels, extreme learning machine with Gaussian kernel, C5.0 and avNNet (a committee of multi-layer perceptrons implemented in R with the caret package).
The random forest is clearly the best family of classifiers (3 out of 5 bests classifiers are RF), followed by SVM (4 classifiers in the top-10), neural networks and boosting ensembles (5 and 3 members in the top-20, respectively).
You can see the table with the complete results: http://persoal.citius.usc.es/manuel.fernandez.delgado/papers/jmlr/results.txt
I hope it will be helpful for Statistic and Machine Leaning aspirants!
Thank you!
What is the best way to know which machine learning algorithm has a better probability to accurately or more precisely classify a dataset, before applying it?
These basic questions should help:
1. Is the classification going to be supervised or unsupervised? Several well defined techniques likes SVM (Support Vector Machines), trained neural net,etc. are applicable for supervised classification. For unsupervised classification, GMMs (Gaussian Mixture Models), HMMs (Hidden Markov models) with Baye’s techniques could be used. (Several other techniques could of course be used as well)
2.How much training data do you have in case it is supervised ? A small number of training data may yield discouraging classification accuracy even if the chosen classifier is the most suitable one for the problem. In such a case, try to obtain more number of samples. There’s also generally a correlation (for practical purposes at least) between the feature dimensionality and the number of samples for given technique. For example, while using SVM, the linear kernel tends to yield better results when the number of training samples are less than or equal to or only slightly more than the number of feature dimensions as compared to RBF or any other kernel.
3. If the feature vector dimensionality is small enough (1/2/3 -D) then it makes sense to plot and visually inspect if techniques like clustering could be more useful. With very high number of feature dimensions, methods like clustering are generally not advisable(Refer : “The Curse Of Dimensionality”).
4. Are you doing classification in real time ? Some techniques ,e.g. “Template Match” in image classification may lead to a higher number of errors but is generally faster than most other techniques if the number of templates to be evaluated are not excessively high.
5. Depending upon the problem domain, you can decide if you can choose the underlying model in such a way that it can use certain temporal/spatial correlations that may be inherent in the data. For example, HMMs use the temporal continuity of speech samples for enhancing classification results in speech recognition problems.
Another point, slightly off the topic perhaps, but the classification performance is as much a function of choosing the correct feature vectors, the pre-processing of the feature vectors as much as the classifier itself. It’s generally a good idea to give reserve some initial part of the project to try out various classifiers on the same data-set. It may at least help you reject the ones which are highly inaccurate.
What are the application of probability theory in statistics, machine learning, artificial intelligence, economic, commerce, business intelligence?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the best image segmentation pre-trained method publicly available? Currently using DeepLab demo (link attached) but I’m looking for a better version of this.

Using public photos from the internet, they were able to reconstruct viewpoints of a scene conserving the realistic shadows and lightings. Would it be possible to do this efficiently and just tag a place in Google map and get the 3D scene from it?

Do you think GPT-3 will change our lives, or is it just hype? Are the applications really useful and real, in the real-world, or are they only the hand-picked results by the researchers and startup to get some hype around them and followers?

Suggest some really good ML projects? Which can be worth adding to CV or resume?

Is it possible to finish Andrew Ng’s course on ML in 15 days?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I learn machine learning?

I’ve reached a dead end with my algorithm for Exact Three Cover, and it’s supposedly trash. What makes it trash?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I get started with learning Machine Learning by myself?

What is more preferable in machine learning, the accuracy of model A is 50% on training data and 97% on test data, or is model B with 80% accuracy on train data and 75 % accuracy on test data?(more detail in comment below) thank you!
How does the training data cause overfitting?

I’ve seen you emphasize mathematical knowledge being important in data science/machine learning. Mike West emphasizes SQL and Python skills (the former especially) as being the most important. Where does this difference in opinion stem from?

If I am a beginner at machine learning and my current goal is publish a good paper within 6 month how should I start with considering I have no experience in publications and what ML topic I should pick in 2020?

What are the differences between the Bayesian and Frequentist methods within machine learning?

What is overfitting?

Why is the Gaussian distribution widely used in practice?

Are there any criteria to distinguish overfitting?

What are examples of Deep Learning overfitting?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the Confusion Matrix in Machine Learning?- Simplest Explanation!

Is Julia’s syntax even more intuitive than Python’s?

Andrew Ng: What is the Future of Deep Reinforcement Learning (DL + RL)?

How is TensorFlow/Keras capable of computing seemingly non-smooth loss functions such as max?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How does image recognition work in MATLAB?

What is the future of TensorFlow?

What is the first thing you do when looking at a new data set?

How do I get data science, computer vision, and machine learning tutorial apps?
Try this one

Reinforcement learning (RL) is an area of machine learning concerned with how software agents ought to take actions in an environment in order to maximize the notion of cumulative reward. Reinforcement learning is one of three basic machine learning

Announcing our new Professional Machine Learning Engineer certification…

What is the best machine learning paper you have read in 2018?

Does every paper in machine learning introduce a new algorithm?

Predicting Credit Card Approvals using ML Techniques

What is an intuitive explanation for convolution?

Android Document Scanner with offline OCR application

What are the recommended data pre-processing methods for tree-based machine learning models?

What are some interesting statistics about the growing rate of the Julia programming language?

Is it possible to learn machine learning without prior knowledge in any coding language?

What skills does a data scientist need to learn in order to put machine learning models in production?
At a high level, these skills are a combination of software and data engineering.
The persons that are more appropriate to do this job are a data engineer and/or a machine learning engineer.
That being said, if you work at a startup or happen to be in a small company and need to put the models into production yourself, here are the top skills you need to get:
Well structured code: it doesn’t need to be perfect but at least can be understood and updated by other team members. Avoid spaghetti code[1] as the plague.
Add logs: if you are a Python user, the logging[2] module is your friend. Avoid print statements at any cost.
Model versioning: add a hash key to your different models. You will thank me later.
Metadata everywhere: save as much data about your models and ML experiments as you can (running time, hyperparameters, used features, CV scores, and so on). You will thank me later, again.
Monitor performances: execution time and statistical scores of your models.
Data and models management: store the necessary data and models somewhere that is available to everyone (S3[3] for example). Avoid uploading these to your VCS[4] system. Don’t share them using Slack or Drive. I won’t judge you though, I do it sometimes (read often). Read more here …..
What are some mistakes data scientists make when building machine learning models?
Some of the mistakes that might involve during building a machine learning model (I can think of) are listed here:
Not understanding the structure of the dataset
Not giving proper care during features selection
Leaving out categorical features and considering just numerical variables
Falling into dummy variable trap
Selection of inefficient machine learning algorithm
Not trying out various ML algorithms for building the model based on structure of data.
Improper tuning of model parameters
Most importantly: Building an idiotstic imperfect model i.e. suppose we have a classification problem with 99% chances of falling into class1 and remaining to class2. The built model may develop a mapping function which all the time for all data inputs, may predict the result to be class1. Well, one might say his/her model has 99% accuracy. But in reality the 1% class2 case hasn’t been included in the model. So this must be taken into consideration.
Read more here…
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[appbox googleplay com.awssolutionarchitectassociateexampreppro.app]
What is the difference between data analytics and data mining?
Basically, data mining is a key aspect of data analytics. Some even consider the former as essential to execute before the latter. While data analytics is the complete package and involves most components needed to examine a data set and extract valuable information, data mining focuses specifically on identifying hidden patterns.
That’s just the surface-level comparison though. The image above gives an overview of how the two differ.
One such difference is the presence of a hypothesis. Data analytics usually requires coming up with one, as it aims to find specific answers. Data mining, on the other hand, generally doesn’t need one to test or prove. The expected output are patterns or trends, which doesn’t require coming up with a statement or fact to test.
However, that doesn’t mean you mine data blindly. You still have a goal, whether it’s to come up with a recommender system or identify predictors of a certain dimension. Ultimately though, you strive to come up with data patterns or trends. For data analysis on the other hand, you’re expected to come up with valuable and actionable insights, usually in relation to a predetermined hypothesis. Read more here ….
What is the life cycle of a data science project?
The data science life cycle is not something well-defined like the software development life-cycle, and there is no ‘one-size-fits-all’ solution for data science projects. Every step in the life-cycle of a data science project depends on various data scientist skills and data science tools. The typical life-cycle of a data science project involves jumping back and forth among various interdependent science tasks using a variety of tools, techniques, programming, etc.
Thus, the data science life-cycle can include the following steps:
Business requirement understanding.
Data collection.
Data cleaning.
Data analysis.
Modeling.
Performance evaluation.
Communicating with stakeholders.
Deployment.
Real-world testing.
Business buy-in.
Support and maintenance.
Looks neat, but here is the scheme to visualize how it is happening in reality:
Agile development processes, especially continuous delivery lends itself well to the data science project life-cycle. The early comparison helps the data science team to change approaches, refine hypotheses and even discard the project if the business case is nonviable or the benefits from the predictive models are not worth the effort to build it.
Read more here….

Top
[appbox appstore 1611045854-iphone screenshots]
[appbox microsoftstore 9n8rl80hvm4t-mobile screenshots]
Machine Learning Q&A -Part II:

What are the application of probability theory in statistics, machine learning, artificial intelligence, economic, commerce, business intelligence?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the best image segmentation pre-trained method publicly available? Currently using DeepLab demo (link attached) but I’m looking for a better version of this.

Using public photos from the internet, they were able to reconstruct viewpoints of a scene conserving the realistic shadows and lightings. Would it be possible to do this efficiently and just tag a place in Google map and get the 3D scene from it?

Do you think GPT-3 will change our lives, or is it just hype? Are the applications really useful and real, in the real-world, or are they only the hand-picked results by the researchers and startup to get some hype around them and followers?

Suggest some really good ML projects? Which can be worth adding to CV or resume?

Is it possible to finish Andrew Ng’s course on ML in 15 days?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I learn machine learning?

I’ve reached a dead end with my algorithm for Exact Three Cover, and it’s supposedly trash. What makes it trash?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I get started with learning Machine Learning by myself?

What is more preferable in machine learning, the accuracy of model A is 50% on training data and 97% on test data, or is model B with 80% accuracy on train data and 75 % accuracy on test data?(more detail in comment below) thank you!
How does the training data cause overfitting?

I’ve seen you emphasize mathematical knowledge being important in data science/machine learning. Mike West emphasizes SQL and Python skills (the former especially) as being the most important. Where does this difference in opinion stem from?

If I am a beginner at machine learning and my current goal is publish a good paper within 6 month how should I start with considering I have no experience in publications and what ML topic I should pick in 2020?

What are the differences between the Bayesian and Frequentist methods within machine learning?

What is overfitting?

Why is the Gaussian distribution widely used in practice?

Are there any criteria to distinguish overfitting?

What are examples of Deep Learning overfitting?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the Confusion Matrix in Machine Learning?- Simplest Explanation!

Is Julia’s syntax even more intuitive than Python’s?

Andrew Ng: What is the Future of Deep Reinforcement Learning (DL + RL)?

How is TensorFlow/Keras capable of computing seemingly non-smooth loss functions such as max?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How does image recognition work in MATLAB?

What is the future of TensorFlow?

What is the first thing you do when looking at a new data set?

How do I get data science, computer vision, and machine learning tutorial apps?
Try this one

Reinforcement learning (RL) is an area of machine learning concerned with how software agents ought to take actions in an environment in order to maximize the notion of cumulative reward. Reinforcement learning is one of three basic machine learning

Announcing our new Professional Machine Learning Engineer certification…

What is the best machine learning paper you have read in 2018?

Does every paper in machine learning introduce a new algorithm?

Predicting Credit Card Approvals using ML Techniques

What is an intuitive explanation for convolution?

Android Document Scanner with offline OCR application

What are the recommended data pre-processing methods for tree-based machine learning models?

What are some interesting statistics about the growing rate of the Julia programming language?

Is it possible to learn machine learning without prior knowledge in any coding language?

What skills does a data scientist need to learn in order to put machine learning models in production?
At a high level, these skills are a combination of software and data engineering.
The persons that are more appropriate to do this job are a data engineer and/or a machine learning engineer.
That being said, if you work at a startup or happen to be in a small company and need to put the models into production yourself, here are the top skills you need to get:
Well structured code: it doesn’t need to be perfect but at least can be understood and updated by other team members. Avoid spaghetti code[1] as the plague.
Add logs: if you are a Python user, the logging[2] module is your friend. Avoid print statements at any cost.
Model versioning: add a hash key to your different models. You will thank me later.
Metadata everywhere: save as much data about your models and ML experiments as you can (running time, hyperparameters, used features, CV scores, and so on). You will thank me later, again.
Monitor performances: execution time and statistical scores of your models.
Data and models management: store the necessary data and models somewhere that is available to everyone (S3[3] for example). Avoid uploading these to your VCS[4] system. Don’t share them using Slack or Drive. I won’t judge you though, I do it sometimes (read often). Read more here …..
What are some mistakes data scientists make when building machine learning models?
Some of the mistakes that might involve during building a machine learning model (I can think of) are listed here:
Not understanding the structure of the dataset
Not giving proper care during features selection
Leaving out categorical features and considering just numerical variables
Falling into dummy variable trap
Selection of inefficient machine learning algorithm
Not trying out various ML algorithms for building the model based on structure of data.
Improper tuning of model parameters
Most importantly: Building an idiotstic imperfect model i.e. suppose we have a classification problem with 99% chances of falling into class1 and remaining to class2. The built model may develop a mapping function which all the time for all data inputs, may predict the result to be class1. Well, one might say his/her model has 99% accuracy. But in reality the 1% class2 case hasn’t been included in the model. So this must be taken into consideration.
Read more here…
What is the difference between data analytics and data mining?
Basically, data mining is a key aspect of data analytics. Some even consider the former as essential to execute before the latter. While data analytics is the complete package and involves most components needed to examine a data set and extract valuable information, data mining focuses specifically on identifying hidden patterns.
That’s just the surface-level comparison though. The image above gives an overview of how the two differ.
One such difference is the presence of a hypothesis. Data analytics usually requires coming up with one, as it aims to find specific answers. Data mining, on the other hand, generally doesn’t need one to test or prove. The expected output are patterns or trends, which doesn’t require coming up with a statement or fact to test.
However, that doesn’t mean you mine data blindly. You still have a goal, whether it’s to come up with a recommender system or identify predictors of a certain dimension. Ultimately though, you strive to come up with data patterns or trends. For data analysis on the other hand, you’re expected to come up with valuable and actionable insights, usually in relation to a predetermined hypothesis. Read more here ….
What is the life cycle of a data science project?
The data science life cycle is not something well-defined like the software development life-cycle, and there is no ‘one-size-fits-all’ solution for data science projects. Every step in the life-cycle of a data science project depends on various data scientist skills and data science tools. The typical life-cycle of a data science project involves jumping back and forth among various interdependent science tasks using a variety of tools, techniques, programming, etc.
Thus, the data science life-cycle can include the following steps:
Business requirement understanding.
Data collection.
Data cleaning.
Data analysis.
Modeling.
Performance evaluation.
Communicating with stakeholders.
Deployment.
Real-world testing.
Business buy-in.
Support and maintenance.
Looks neat, but here is the scheme to visualize how it is happening in reality:
Agile development processes, especially continuous delivery lends itself well to the data science project life-cycle. The early comparison helps the data science team to change approaches, refine hypotheses and even discard the project if the business case is nonviable or the benefits from the predictive models are not worth the effort to build it.
Read more here….

Top

iOs: https://apps.apple.com/ca/app/aws-machine-learning-prep-pro/id1611045854
Windows: https://www.microsoft.com/en-ca/p/aws-machine-learning-mls-c01-specialty-certification-exam-prep/9n8rl80hvm4t
Android/Amazon: https://www.amazon.com/gp/product/B09TZ4H8V6
AWS MLS-C01 Machine Learning Exam Prep
Quizzes, Practice Exams: Modeling, Data Engineering, Vision, Exploratory Data Analysis, ML Ops, Cheat Sheets, ML Jobs Interview Q&A
Use this App to learn about Machine Learning on AWS and prepare for the AWS Machine Learning Specialty Certification MLS-C01.
Earning AWS Certified Machine Learning Specialty validates expertise in building, training, tuning, and deploying machine learning (ML) models on AWS.
The App provides hundreds of quizzes and practice exam about:
– Machine Learning Operation on AWS
– Modelling
– Data Engineering
– Computer Vision,
– Exploratory Data Analysis,
– ML implementation & Operations
– Machine Learning Basics Questions and Answers
– Machine Learning Advanced Questions and Answers
– Scorecard
– Countdown timer
– Machine Learning Cheat Sheets
– Machine Learning Interview Questions and Answers
– Machine Learning Latest News
The App covers Machine Learning Basics and Advanced topics including: NLP, Computer Vision, Python, linear regression, logistic regression, Sampling, dataset, statistical interaction, selection bias, non-Gaussian distribution, bias-variance trade-off, Normal Distribution, correlation and covariance, Point Estimates and Confidence Interval, A/B Testing, p-value, statistical power of sensitivity, over-fitting and under-fitting, regularization, Law of Large Numbers, Confounding Variables, Survivorship Bias, univariate, bivariate and multivariate, Resampling, ROC curve, TF/IDF vectorization, Cluster Sampling, etc.
Domain 1: Data Engineering
Create data repositories for machine learning.
Identify data sources (e.g., content and location, primary sources such as user data)
Determine storage mediums (e.g., DB, Data Lake, S3, EFS, EBS)
Identify and implement a data ingestion solution.
Data job styles/types (batch load, streaming)
Data ingestion pipelines (Batch-based ML workloads and streaming-based ML workloads), etc.
Domain 2: Exploratory Data Analysis
Sanitize and prepare data for modeling.
Perform feature engineering.
Analyze and visualize data for machine learning.
Domain 3: Modeling
Frame business problems as machine learning problems.
Select the appropriate model(s) for a given machine learning problem.
Train machine learning models.
Perform hyperparameter optimization.
Evaluate machine learning models.
Domain 4: Machine Learning Implementation and Operations
Build machine learning solutions for performance, availability, scalability, resiliency, and fault tolerance.
Recommend and implement the appropriate machine learning services and features for a given problem.
Apply basic AWS security practices to machine learning solutions.
Deploy and operationalize machine learning solutions.
Machine Learning Services covered:
Amazon Comprehend
AWS Deep Learning AMIs (DLAMI)
AWS DeepLens
Amazon Forecast
Amazon Fraud Detector
Amazon Lex
Amazon Polly
Amazon Rekognition
Amazon SageMaker
Amazon Textract
Amazon Transcribe
Amazon Translate
Other Services and topics covered are:
Ingestion/Collection
Processing/ETL
Data analysis/visualization
Model training
Model deployment/inference
Operational
AWS ML application services
Language relevant to ML (for example, Python, Java, Scala, R, SQL)
Notebooks and integrated development environments (IDEs),
S3, SageMaker, Kinesis, Lake Formation, Athena, Kibana, Redshift, Textract, EMR, Glue, SageMaker, CSV, JSON, IMG, parquet or databases, Amazon Athena
Amazon EC2, Amazon Elastic Container Registry (Amazon ECR), Amazon Elastic Container Service, Amazon Elastic Kubernetes Service , Amazon Redshift
Sagemaker API Explained:
AWS Certified Machine Learning Engineer Specialty Questions and Answers:
Question1: An advertising and analytics company uses machine learning to predict user response to online advertisements using a custom XGBoost model. The company wants to improve its ML pipeline by porting its training and inference code, written in R, to Amazon SageMaker, and do so with minimal changes to the existing code.
Answer1: Use the Build Your Own Container (BYOC) Amazon Sagemaker option.
Create a new docker container with the existing code. Register the container in Amazon Elastic Container registry. with the existing code. Register the container in Amazon Elastic Container Registry. Finally run the training and inference jobs using this container.
Question2: Which feature of Amazon SageMaker can you use for preprocessing the data?

Amazon SageMaker training jobs
Amazon SageMaker hyperaparameter tuning
Amazon SageMaker notebook instances
Amazon SageMaker endpoints
Answer2: Amazon Sagemaker Notebook instances
Amazon SageMaker enables developers and data scientists to build, train, tune, and deploy machine learning (ML) models at scale. You can deploy trained ML models for real-time or batch predictions on unseen data, a process known as inference. However, in most cases, the raw input data must be preprocessed and can’t be used directly for making predictions. This is because most ML models expect the data in a predefined format, so the raw data needs to be first cleaned and formatted in order for the ML model to process the data. You can use the Amazon SageMaker built-in Scikit-learn library for preprocessing input data and then use the Amazon SageMaker built-in Linear Learner algorithm for predictions.
Question3: What setting, when creating an Amazon SageMaker notebook instance, can you use to install libraries and import data?
Answer3: LifeCycle Configuration
Question4: How to Choose the right Sagemaker built-in algorithm?
How to chose the right built in algorithm in SageMaker?
Guide to choosing the right unsupervised learning algorithm

Choosing the right ML algorithm based on Data Type

Choosing the right ML algo based on data type
This is a general guide for choosing which algorithm to use depending on what business problem you have and what data you have.

Top
Top 10 Google Professional Machine Learning Engineer Sample Questions
Question 1: You work for a textile manufacturer and have been asked to build a model to detect and classify fabric defects. You trained a machine learning model with high recall based on high resolution images taken at the end of the production line. You want quality control inspectors to gain trust in your model. Which technique should you use to understand the rationale of your classifier?
A. Use K-fold cross validation to understand how the model performs on different test datasets.
B. Use the Integrated Gradients method to efficiently compute feature attributions for each predicted image.
C. Use PCA (Principal Component Analysis) to reduce the original feature set to a smaller set of easily understood features.
D. Use k-means clustering to group similar images together, and calculate the Davies-Bouldin index to evaluate the separation between clusters.
Answer 1)
B
Notes 1)
B is correct because it identifies the pixel of the input image that leads to the classification of the image itself.
Question 2: You need to write a generic test to verify whether Dense Neural Network (DNN) models automatically released by your team have a sufficient number of parameters to learn the task for which they were built. What should you do?
A. Train the model for a few iterations, and check for NaN values.

B. Train the model for a few iterations, and verify that the loss is constant.

C. Train a simple linear model, and determine if the DNN model outperforms it.

D. Train the model with no regularization, and verify that the loss function is close to zero.

Answer 2)
D
Notes 2)
D is correct because the test can check that the model has enough parameters to memorize the task.
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Question 3: Your team is using a TensorFlow Inception-v3 CNN model pretrained on ImageNet for an image classification prediction challenge on 10,000 images. You will use AI Platform to perform the model training. What TensorFlow distribution strategy and AI Platform training job configuration should you use to train the model and optimize for wall-clock time?

A. Default Strategy; Custom tier with a single master node and four v100 GPUs.

B. One Device Strategy; Custom tier with a single master node and four v100 GPUs.

C. One Device Strategy; Custom tier with a single master node and eight v100 GPUs.

D. Central Storage Strategy; Custom tier with a single master node and four v100 GPUs.

Answer 3)
D
Notes 3)
D is correct because this is the only strategy that can perform distributed training; albeit there is only a single copy of the variables on the CPU host.
Question 4: You work on a team where the process for deploying a model into production starts with data scientists training different versions of models in a Kubeflow pipeline. The workflow then stores the new model artifact into the corresponding Cloud Storage bucket. You need to build the next steps of the pipeline after the submitted model is ready to be tested and deployed in production on AI Platform. How should you configure the architecture before deploying the model to production?

A. Deploy model in test environment -> Validate model -> Create a new AI Platform model version

B. Validate model -> Deploy model in test environment -> Create a new AI Platform model version

C. Create a new AI Platform model version -> Validate model -> Deploy model in test environment

D. Create a new AI Platform model version – > Deploy model in test environment -> Validate model

Answer 4)
A

Notes 4)
A is correct because the model can be validated after it is deployed to the test environment, and the release version is established before the model is deployed in production.

Question 5: You work for a maintenance company and have built and trained a deep learning model that identifies defects based on thermal images of underground electric cables. Your dataset contains 10,000 images, 100 of which contain visible defects. How should you evaluate the performance of the model on a test dataset?

A. Calculate the Area Under the Curve (AUC) value.

B. Calculate the number of true positive results predicted by the model.

C. Calculate the fraction of images predicted by the model to have a visible defect.

D. Calculate the Cosine Similarity to compare the model’s performance on the test dataset to the model’s performance on the training dataset.

Answer 5)
A

Notes 5)
A is correct because it is scale-invariant. AUC measures how well predictions are ranked, rather than their absolute values. AUC is also classification-threshold invariant. It measures the quality of the model’s predictions irrespective of what classification threshold is chosen.

Question 6: You work for a manufacturing company that owns a high-value machine which has several machine settings and multiple sensors. A history of the machine’s hourly sensor readings and known failure event data are stored in BigQuery. You need to predict if the machine will fail within the next 3 days in order to schedule maintenance before the machine fails. Which data preparation and model training steps should you take?

A. Data preparation: Daily max value feature engineering with DataPrep; Model training: AutoML classification with BQML

B. Data preparation: Daily min value feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to True

C. Data preparation: Rolling average feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to False

D. Data preparation: Rolling average feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to True
Answer 6)
D

Notes 6)
D is correct because it uses the rolling average of the sensor data and balances the weights using the BQML auto class weight balance parameter.

Question 7: You are an ML engineer at a media company. You need to build an ML model to analyze video content frame-by-frame, identify objects, and alert users if there is inappropriate content. Which Google Cloud products should you use to build this project?

A. Pub/Sub, Cloud Function, Cloud Vision API

B. Pub/Sub, Cloud IoT, Dataflow, Cloud Vision API, Cloud Logging

C. Pub/Sub, Cloud Function, Video Intelligence API, Cloud Logging

D. Pub/Sub, Cloud Function, AutoML Video Intelligence, Cloud Logging

Answer 7)
C

Notes 7)
C is correct as Video Intelligence API can find inappropriate components and other components satisfy the requirements of real-time processing and notification.

Question 8: You work for a large retailer. You want to use ML to forecast future sales leveraging 10 years of historical sales data. The historical data is stored in Cloud Storage in Avro format. You want to rapidly experiment with all the available data. How should you build and train your model for the sales forecast?

A. Load data into BigQuery and use the ARIMA model type on BigQuery ML.

B. Convert the data into CSV format and create a regression model on AutoML Tables.

C. Convert the data into TFRecords and create an RNN model on TensorFlow on AI Platform Notebooks.

D. Convert and refactor the data into CSV format and use the built-in XGBoost algorithm on AI Platform Training.

Answer 8)
A

Notes 8)
A is correct because BigQuery ML is designed for fast and rapid experimentation and it is possible to use federated queries to read data directly from Cloud Storage. Moreover, ARIMA is considered one of the best in class for time series forecasting.

Question 9) You need to build an object detection model for a small startup company to identify if and where the company’s logo appears in an image. You were given a large repository of images, some with logos and some without. These images are not yet labelled. You need to label these pictures, and then train and deploy the model. What should you do?

A. Use Google Cloud’s Data Labelling Service to label your data. Use AutoML Object Detection to train and deploy the model.

B. Use Vision API to detect and identify logos in pictures and use it as a label. Use AI Platform to build and train a convolutional neural network.

C. Create two folders: one where the logo appears and one where it doesn’t. Manually place images in each folder. Use AI Platform to build and train a convolutional neural network.

D. Create two folders: one where the logo appears and one where it doesn’t. Manually place images in each folder. Use AI Platform to build and train a real time object detection model.

Answer 9)
A

Notes 9)
A is correct as this will allow you to easily create a request for a labelling task and deploy a high-performance model.

Question 10) You work for a large financial institution that is planning to use Dialogflow to create a chatbot for the company’s mobile app. You have reviewed old chat logs and tagged each conversation for intent based on each customer’s stated intention for contacting customer service. About 70% of customer inquiries are simple requests that are solved within 10 intents. The remaining 30% of inquiries require much longer and more complicated requests. Which intents should you automate first?
A. Automate a blend of the shortest and longest intents to be representative of all intents.

B. Automate the more complicated requests first because those require more of the agents’ time.

C. Automate the 10 intents that cover 70% of the requests so that live agents can handle the more complicated requests.

D. Automate intents in places where common words such as “payment” only appear once to avoid confusing the software.
Answer 10)
C

Notes 10)
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Machine Learning Q&A Part I:
What is best cloud solution for deep learning?
Google.
Azure and AWS are second class citizens in this area.
Sure, AWS has 70% of the market.
Sure, Azure is the easiest turn key and super user friendly.
But, the king of machine learning in the cloud is GCP.
GCP = Google Cloud Platform
Google has the largest data science team in the world, not mention they have Hinton.
Let’s forgot for a minute they created TensorFlow and give it away.
Let’s just talk about building a real world model with data that doesn’t fit into a excel spreadsheet.
The vast majority of applied machine learning is supervised and that means we need data.
Not just normal data, we need very clean highly structured data.
Where’s the easiest place in the world to upload and model a Petabyte of structured data? BigQuery of course.
Why BigQuery? I don’t have to do anything but upload my data. No spinning up RedShit clusters or whatever I have to do in Azure, just upload and massage data with my familiar SQL. If I do have to wrangle my data it won’t take my six months to update 5 rows here, minutes usually.
Then, you’ll need a front end. Cloud datalab is a Jupyter notebook, which is good because I don’t want nor do I need anything else.
Then, with a single line of code I connect by datalab (Jupyter) notebook to my data in BigQuery and build away.
I’ve worked in all three and the only thing I care about is getting to my job the fastest and right now that means I build my models in GCP.
If you’re new to machine learning don’t start in GCP or any cloud vendor for that matter. Start learning Python from the comfort of your laptop.
The course below is free to the first 20.
The Complete Python Course for Machine Learning Engineers
What are list of machine learning classification techniques?
Here, I want to share the best research paper on Machine Learning classification methods, titled ‘Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?’, published in the ‘Journal of Machine Learning Research’.
This paper nicely explained 179 classification techniques and applied them on 121 data sets thus sharing small summary of the paper:
Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?

https://jmlr.org/papers/v15/delgado14a.html

The paper evaluated 179 classifiers arising from 17 ML families (discriminant analysis, Bayesian, neural networks, support vector machines, decision trees, rule-based classifiers, boosting, bagging, stacking, random forests and other ensembles, generalized linear models, nearest neighbours, partial least squares and principal component regression, logistic and multinomial regression, multiple adaptive regression splines and other methods), implemented in Weka, R ( with and without the caret package), C and Matlab, including all the relevant classifiers available today.
Experiments used total 121 data sets , which represent the whole UCI data base (excluding the large-scale problems) and other own real problems, in order to achieve significant conclusions about the classifier behaviour, not dependent on the data set collection.
The whole data set and partitions are available from: http://persoal.citius.usc.es/manuel.fernandez.delgado/papers/jmlr/data.tar.gz
The classifiers most likely to be the bests are the random forest (RF) versions, the best of which (implemented in R and accessed via caret) achieves 94.1% of the maximum accuracy overcoming 90% in the 84.3% of the data sets. However, the difference is not statistically significant with the second best, the SVM with Gaussian kernel implemented in C using LibSVM, which achieves 92.3% of the maximum accuracy. A few models are clearly better than the remaining ones: random forest, SVM with Gaussian and polynomial kernels, extreme learning machine with Gaussian kernel, C5.0 and avNNet (a committee of multi-layer perceptrons implemented in R with the caret package).
The random forest is clearly the best family of classifiers (3 out of 5 bests classifiers are RF), followed by SVM (4 classifiers in the top-10), neural networks and boosting ensembles (5 and 3 members in the top-20, respectively).
You can see the table with the complete results: http://persoal.citius.usc.es/manuel.fernandez.delgado/papers/jmlr/results.txt
I hope it will be helpful for Statistic and Machine Leaning aspirants!
Thank you!
What is the best way to know which machine learning algorithm has a better probability to accurately or more precisely classify a dataset, before applying it?
These basic questions should help:
1. Is the classification going to be supervised or unsupervised? Several well defined techniques likes SVM (Support Vector Machines), trained neural net,etc. are applicable for supervised classification. For unsupervised classification, GMMs (Gaussian Mixture Models), HMMs (Hidden Markov models) with Baye’s techniques could be used. (Several other techniques could of course be used as well)
2.How much training data do you have in case it is supervised ? A small number of training data may yield discouraging classification accuracy even if the chosen classifier is the most suitable one for the problem. In such a case, try to obtain more number of samples. There’s also generally a correlation (for practical purposes at least) between the feature dimensionality and the number of samples for given technique. For example, while using SVM, the linear kernel tends to yield better results when the number of training samples are less than or equal to or only slightly more than the number of feature dimensions as compared to RBF or any other kernel.
3. If the feature vector dimensionality is small enough (1/2/3 -D) then it makes sense to plot and visually inspect if techniques like clustering could be more useful. With very high number of feature dimensions, methods like clustering are generally not advisable(Refer : “The Curse Of Dimensionality”).
4. Are you doing classification in real time ? Some techniques ,e.g. “Template Match” in image classification may lead to a higher number of errors but is generally faster than most other techniques if the number of templates to be evaluated are not excessively high.
5. Depending upon the problem domain, you can decide if you can choose the underlying model in such a way that it can use certain temporal/spatial correlations that may be inherent in the data. For example, HMMs use the temporal continuity of speech samples for enhancing classification results in speech recognition problems.
Another point, slightly off the topic perhaps, but the classification performance is as much a function of choosing the correct feature vectors, the pre-processing of the feature vectors as much as the classifier itself. It’s generally a good idea to give reserve some initial part of the project to try out various classifiers on the same data-set. It may at least help you reject the ones which are highly inaccurate.
What are the application of probability theory in statistics, machine learning, artificial intelligence, economic, commerce, business intelligence?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the best image segmentation pre-trained method publicly available? Currently using DeepLab demo (link attached) but I’m looking for a better version of this.

Using public photos from the internet, they were able to reconstruct viewpoints of a scene conserving the realistic shadows and lightings. Would it be possible to do this efficiently and just tag a place in Google map and get the 3D scene from it?

Do you think GPT-3 will change our lives, or is it just hype? Are the applications really useful and real, in the real-world, or are they only the hand-picked results by the researchers and startup to get some hype around them and followers?

Suggest some really good ML projects? Which can be worth adding to CV or resume?

Is it possible to finish Andrew Ng’s course on ML in 15 days?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I learn machine learning?

I’ve reached a dead end with my algorithm for Exact Three Cover, and it’s supposedly trash. What makes it trash?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I get started with learning Machine Learning by myself?

What is more preferable in machine learning, the accuracy of model A is 50% on training data and 97% on test data, or is model B with 80% accuracy on train data and 75 % accuracy on test data?(more detail in comment below) thank you!
How does the training data cause overfitting?

I’ve seen you emphasize mathematical knowledge being important in data science/machine learning. Mike West emphasizes SQL and Python skills (the former especially) as being the most important. Where does this difference in opinion stem from?

If I am a beginner at machine learning and my current goal is publish a good paper within 6 month how should I start with considering I have no experience in publications and what ML topic I should pick in 2020?

What are the differences between the Bayesian and Frequentist methods within machine learning?

What is overfitting?

Why is the Gaussian distribution widely used in practice?

Are there any criteria to distinguish overfitting?

What are examples of Deep Learning overfitting?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the Confusion Matrix in Machine Learning?- Simplest Explanation!

Is Julia’s syntax even more intuitive than Python’s?

Andrew Ng: What is the Future of Deep Reinforcement Learning (DL + RL)?

How is TensorFlow/Keras capable of computing seemingly non-smooth loss functions such as max?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How does image recognition work in MATLAB?

What is the future of TensorFlow?

What is the first thing you do when looking at a new data set?

How do I get data science, computer vision, and machine learning tutorial apps?
Try this one

Reinforcement learning (RL) is an area of machine learning concerned with how software agents ought to take actions in an environment in order to maximize the notion of cumulative reward. Reinforcement learning is one of three basic machine learning

Announcing our new Professional Machine Learning Engineer certification…

What is the best machine learning paper you have read in 2018?

Does every paper in machine learning introduce a new algorithm?

Predicting Credit Card Approvals using ML Techniques

What is an intuitive explanation for convolution?

Android Document Scanner with offline OCR application

What are the recommended data pre-processing methods for tree-based machine learning models?

What are some interesting statistics about the growing rate of the Julia programming language?

Is it possible to learn machine learning without prior knowledge in any coding language?

What skills does a data scientist need to learn in order to put machine learning models in production?
At a high level, these skills are a combination of software and data engineering.
The persons that are more appropriate to do this job are a data engineer and/or a machine learning engineer.
That being said, if you work at a startup or happen to be in a small company and need to put the models into production yourself, here are the top skills you need to get:
Well structured code: it doesn’t need to be perfect but at least can be understood and updated by other team members. Avoid spaghetti code[1] as the plague.
Add logs: if you are a Python user, the logging[2] module is your friend. Avoid print statements at any cost.
Model versioning: add a hash key to your different models. You will thank me later.
Metadata everywhere: save as much data about your models and ML experiments as you can (running time, hyperparameters, used features, CV scores, and so on). You will thank me later, again.
Monitor performances: execution time and statistical scores of your models.
Data and models management: store the necessary data and models somewhere that is available to everyone (S3[3] for example). Avoid uploading these to your VCS[4] system. Don’t share them using Slack or Drive. I won’t judge you though, I do it sometimes (read often). Read more here …..
What are some mistakes data scientists make when building machine learning models?
Some of the mistakes that might involve during building a machine learning model (I can think of) are listed here:
Not understanding the structure of the dataset
Not giving proper care during features selection
Leaving out categorical features and considering just numerical variables
Falling into dummy variable trap
Selection of inefficient machine learning algorithm
Not trying out various ML algorithms for building the model based on structure of data.
Improper tuning of model parameters
Most importantly: Building an idiotstic imperfect model i.e. suppose we have a classification problem with 99% chances of falling into class1 and remaining to class2. The built model may develop a mapping function which all the time for all data inputs, may predict the result to be class1. Well, one might say his/her model has 99% accuracy. But in reality the 1% class2 case hasn’t been included in the model. So this must be taken into consideration.
Read more here…
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[appbox googleplay com.awssolutionarchitectassociateexampreppro.app]
What is the difference between data analytics and data mining?
Basically, data mining is a key aspect of data analytics. Some even consider the former as essential to execute before the latter. While data analytics is the complete package and involves most components needed to examine a data set and extract valuable information, data mining focuses specifically on identifying hidden patterns.
That’s just the surface-level comparison though. The image above gives an overview of how the two differ.
One such difference is the presence of a hypothesis. Data analytics usually requires coming up with one, as it aims to find specific answers. Data mining, on the other hand, generally doesn’t need one to test or prove. The expected output are patterns or trends, which doesn’t require coming up with a statement or fact to test.
However, that doesn’t mean you mine data blindly. You still have a goal, whether it’s to come up with a recommender system or identify predictors of a certain dimension. Ultimately though, you strive to come up with data patterns or trends. For data analysis on the other hand, you’re expected to come up with valuable and actionable insights, usually in relation to a predetermined hypothesis. Read more here ….
What is the life cycle of a data science project?
The data science life cycle is not something well-defined like the software development life-cycle, and there is no ‘one-size-fits-all’ solution for data science projects. Every step in the life-cycle of a data science project depends on various data scientist skills and data science tools. The typical life-cycle of a data science project involves jumping back and forth among various interdependent science tasks using a variety of tools, techniques, programming, etc.
Thus, the data science life-cycle can include the following steps:
Business requirement understanding.
Data collection.
Data cleaning.
Data analysis.
Modeling.
Performance evaluation.
Communicating with stakeholders.
Deployment.
Real-world testing.
Business buy-in.
Support and maintenance.
Looks neat, but here is the scheme to visualize how it is happening in reality:
Agile development processes, especially continuous delivery lends itself well to the data science project life-cycle. The early comparison helps the data science team to change approaches, refine hypotheses and even discard the project if the business case is nonviable or the benefits from the predictive models are not worth the effort to build it.
Read more here….

Top
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Machine Learning Q&A -Part II:

What are the application of probability theory in statistics, machine learning, artificial intelligence, economic, commerce, business intelligence?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the best image segmentation pre-trained method publicly available? Currently using DeepLab demo (link attached) but I’m looking for a better version of this.

Using public photos from the internet, they were able to reconstruct viewpoints of a scene conserving the realistic shadows and lightings. Would it be possible to do this efficiently and just tag a place in Google map and get the 3D scene from it?

Do you think GPT-3 will change our lives, or is it just hype? Are the applications really useful and real, in the real-world, or are they only the hand-picked results by the researchers and startup to get some hype around them and followers?

Suggest some really good ML projects? Which can be worth adding to CV or resume?

Is it possible to finish Andrew Ng’s course on ML in 15 days?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I learn machine learning?

I’ve reached a dead end with my algorithm for Exact Three Cover, and it’s supposedly trash. What makes it trash?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I get started with learning Machine Learning by myself?

What is more preferable in machine learning, the accuracy of model A is 50% on training data and 97% on test data, or is model B with 80% accuracy on train data and 75 % accuracy on test data?(more detail in comment below) thank you!
How does the training data cause overfitting?

I’ve seen you emphasize mathematical knowledge being important in data science/machine learning. Mike West emphasizes SQL and Python skills (the former especially) as being the most important. Where does this difference in opinion stem from?

If I am a beginner at machine learning and my current goal is publish a good paper within 6 month how should I start with considering I have no experience in publications and what ML topic I should pick in 2020?

What are the differences between the Bayesian and Frequentist methods within machine learning?

What is overfitting?

Why is the Gaussian distribution widely used in practice?

Are there any criteria to distinguish overfitting?

What are examples of Deep Learning overfitting?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the Confusion Matrix in Machine Learning?- Simplest Explanation!

Is Julia’s syntax even more intuitive than Python’s?

Andrew Ng: What is the Future of Deep Reinforcement Learning (DL + RL)?

How is TensorFlow/Keras capable of computing seemingly non-smooth loss functions such as max?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How does image recognition work in MATLAB?

What is the future of TensorFlow?

What is the first thing you do when looking at a new data set?

How do I get data science, computer vision, and machine learning tutorial apps?
Try this one

Reinforcement learning (RL) is an area of machine learning concerned with how software agents ought to take actions in an environment in order to maximize the notion of cumulative reward. Reinforcement learning is one of three basic machine learning

Announcing our new Professional Machine Learning Engineer certification…

What is the best machine learning paper you have read in 2018?

Does every paper in machine learning introduce a new algorithm?

Predicting Credit Card Approvals using ML Techniques

What is an intuitive explanation for convolution?

Android Document Scanner with offline OCR application

What are the recommended data pre-processing methods for tree-based machine learning models?

What are some interesting statistics about the growing rate of the Julia programming language?

Is it possible to learn machine learning without prior knowledge in any coding language?

What skills does a data scientist need to learn in order to put machine learning models in production?
At a high level, these skills are a combination of software and data engineering.
The persons that are more appropriate to do this job are a data engineer and/or a machine learning engineer.
That being said, if you work at a startup or happen to be in a small company and need to put the models into production yourself, here are the top skills you need to get:
Well structured code: it doesn’t need to be perfect but at least can be understood and updated by other team members. Avoid spaghetti code[1] as the plague.
Add logs: if you are a Python user, the logging[2] module is your friend. Avoid print statements at any cost.
Model versioning: add a hash key to your different models. You will thank me later.
Metadata everywhere: save as much data about your models and ML experiments as you can (running time, hyperparameters, used features, CV scores, and so on). You will thank me later, again.
Monitor performances: execution time and statistical scores of your models.
Data and models management: store the necessary data and models somewhere that is available to everyone (S3[3] for example). Avoid uploading these to your VCS[4] system. Don’t share them using Slack or Drive. I won’t judge you though, I do it sometimes (read often). Read more here …..
What are some mistakes data scientists make when building machine learning models?
Some of the mistakes that might involve during building a machine learning model (I can think of) are listed here:
Not understanding the structure of the dataset
Not giving proper care during features selection
Leaving out categorical features and considering just numerical variables
Falling into dummy variable trap
Selection of inefficient machine learning algorithm
Not trying out various ML algorithms for building the model based on structure of data.
Improper tuning of model parameters
Most importantly: Building an idiotstic imperfect model i.e. suppose we have a classification problem with 99% chances of falling into class1 and remaining to class2. The built model may develop a mapping function which all the time for all data inputs, may predict the result to be class1. Well, one might say his/her model has 99% accuracy. But in reality the 1% class2 case hasn’t been included in the model. So this must be taken into consideration.
Read more here…
What is the difference between data analytics and data mining?
Basically, data mining is a key aspect of data analytics. Some even consider the former as essential to execute before the latter. While data analytics is the complete package and involves most components needed to examine a data set and extract valuable information, data mining focuses specifically on identifying hidden patterns.
That’s just the surface-level comparison though. The image above gives an overview of how the two differ.
One such difference is the presence of a hypothesis. Data analytics usually requires coming up with one, as it aims to find specific answers. Data mining, on the other hand, generally doesn’t need one to test or prove. The expected output are patterns or trends, which doesn’t require coming up with a statement or fact to test.
However, that doesn’t mean you mine data blindly. You still have a goal, whether it’s to come up with a recommender system or identify predictors of a certain dimension. Ultimately though, you strive to come up with data patterns or trends. For data analysis on the other hand, you’re expected to come up with valuable and actionable insights, usually in relation to a predetermined hypothesis. Read more here ….
What is the life cycle of a data science project?
The data science life cycle is not something well-defined like the software development life-cycle, and there is no ‘one-size-fits-all’ solution for data science projects. Every step in the life-cycle of a data science project depends on various data scientist skills and data science tools. The typical life-cycle of a data science project involves jumping back and forth among various interdependent science tasks using a variety of tools, techniques, programming, etc.
Thus, the data science life-cycle can include the following steps:
Business requirement understanding.
Data collection.
Data cleaning.
Data analysis.
Modeling.
Performance evaluation.
Communicating with stakeholders.
Deployment.
Real-world testing.
Business buy-in.
Support and maintenance.
Looks neat, but here is the scheme to visualize how it is happening in reality:
Agile development processes, especially continuous delivery lends itself well to the data science project life-cycle. The early comparison helps the data science team to change approaches, refine hypotheses and even discard the project if the business case is nonviable or the benefits from the predictive models are not worth the effort to build it.
Read more here….

Top
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Android/Amazon: https://www.amazon.com/gp/product/B09TZ4H8V6
AWS MLS-C01 Machine Learning Exam Prep
Quizzes, Practice Exams: Modeling, Data Engineering, Vision, Exploratory Data Analysis, ML Ops, Cheat Sheets, ML Jobs Interview Q&A
Use this App to learn about Machine Learning on AWS and prepare for the AWS Machine Learning Specialty Certification MLS-C01.
Earning AWS Certified Machine Learning Specialty validates expertise in building, training, tuning, and deploying machine learning (ML) models on AWS.
The App provides hundreds of quizzes and practice exam about:
– Machine Learning Operation on AWS
– Modelling
– Data Engineering
– Computer Vision,
– Exploratory Data Analysis,
– ML implementation & Operations
– Machine Learning Basics Questions and Answers
– Machine Learning Advanced Questions and Answers
– Scorecard
– Countdown timer
– Machine Learning Cheat Sheets
– Machine Learning Interview Questions and Answers
– Machine Learning Latest News
The App covers Machine Learning Basics and Advanced topics including: NLP, Computer Vision, Python, linear regression, logistic regression, Sampling, dataset, statistical interaction, selection bias, non-Gaussian distribution, bias-variance trade-off, Normal Distribution, correlation and covariance, Point Estimates and Confidence Interval, A/B Testing, p-value, statistical power of sensitivity, over-fitting and under-fitting, regularization, Law of Large Numbers, Confounding Variables, Survivorship Bias, univariate, bivariate and multivariate, Resampling, ROC curve, TF/IDF vectorization, Cluster Sampling, etc.
Domain 1: Data Engineering
Create data repositories for machine learning.
Identify data sources (e.g., content and location, primary sources such as user data)
Determine storage mediums (e.g., DB, Data Lake, S3, EFS, EBS)
Identify and implement a data ingestion solution.
Data job styles/types (batch load, streaming)
Data ingestion pipelines (Batch-based ML workloads and streaming-based ML workloads), etc.
Domain 2: Exploratory Data Analysis
Sanitize and prepare data for modeling.
Perform feature engineering.
Analyze and visualize data for machine learning.
Domain 3: Modeling
Frame business problems as machine learning problems.
Select the appropriate model(s) for a given machine learning problem.
Train machine learning models.
Perform hyperparameter optimization.
Evaluate machine learning models.
Domain 4: Machine Learning Implementation and Operations
Build machine learning solutions for performance, availability, scalability, resiliency, and fault tolerance.
Recommend and implement the appropriate machine learning services and features for a given problem.
Apply basic AWS security practices to machine learning solutions.
Deploy and operationalize machine learning solutions.
Machine Learning Services covered:
Amazon Comprehend
AWS Deep Learning AMIs (DLAMI)
AWS DeepLens
Amazon Forecast
Amazon Fraud Detector
Amazon Lex
Amazon Polly
Amazon Rekognition
Amazon SageMaker
Amazon Textract
Amazon Transcribe
Amazon Translate
Other Services and topics covered are:
Ingestion/Collection
Processing/ETL
Data analysis/visualization
Model training
Model deployment/inference
Operational
AWS ML application services
Language relevant to ML (for example, Python, Java, Scala, R, SQL)
Notebooks and integrated development environments (IDEs),
S3, SageMaker, Kinesis, Lake Formation, Athena, Kibana, Redshift, Textract, EMR, Glue, SageMaker, CSV, JSON, IMG, parquet or databases, Amazon Athena
Amazon EC2, Amazon Elastic Container Registry (Amazon ECR), Amazon Elastic Container Service, Amazon Elastic Kubernetes Service , Amazon Redshift
Sagemaker API Explained:
AWS Certified Machine Learning Engineer Specialty Questions and Answers:
Question1: An advertising and analytics company uses machine learning to predict user response to online advertisements using a custom XGBoost model. The company wants to improve its ML pipeline by porting its training and inference code, written in R, to Amazon SageMaker, and do so with minimal changes to the existing code.
Answer1: Use the Build Your Own Container (BYOC) Amazon Sagemaker option.
Create a new docker container with the existing code. Register the container in Amazon Elastic Container registry. with the existing code. Register the container in Amazon Elastic Container Registry. Finally run the training and inference jobs using this container.
Question2: Which feature of Amazon SageMaker can you use for preprocessing the data?

Amazon SageMaker training jobs
Amazon SageMaker hyperaparameter tuning
Amazon SageMaker notebook instances
Amazon SageMaker endpoints
Answer2: Amazon Sagemaker Notebook instances
Amazon SageMaker enables developers and data scientists to build, train, tune, and deploy machine learning (ML) models at scale. You can deploy trained ML models for real-time or batch predictions on unseen data, a process known as inference. However, in most cases, the raw input data must be preprocessed and can’t be used directly for making predictions. This is because most ML models expect the data in a predefined format, so the raw data needs to be first cleaned and formatted in order for the ML model to process the data. You can use the Amazon SageMaker built-in Scikit-learn library for preprocessing input data and then use the Amazon SageMaker built-in Linear Learner algorithm for predictions.
Question3: What setting, when creating an Amazon SageMaker notebook instance, can you use to install libraries and import data?
Answer3: LifeCycle Configuration
Question4: How to Choose the right Sagemaker built-in algorithm?
How to chose the right built in algorithm in SageMaker?
Guide to choosing the right unsupervised learning algorithm

Choosing the right ML algorithm based on Data Type

Choosing the right ML algo based on data type
This is a general guide for choosing which algorithm to use depending on what business problem you have and what data you have.

Top
Top 10 Google Professional Machine Learning Engineer Sample Questions
Question 1: You work for a textile manufacturer and have been asked to build a model to detect and classify fabric defects. You trained a machine learning model with high recall based on high resolution images taken at the end of the production line. You want quality control inspectors to gain trust in your model. Which technique should you use to understand the rationale of your classifier?
A. Use K-fold cross validation to understand how the model performs on different test datasets.
B. Use the Integrated Gradients method to efficiently compute feature attributions for each predicted image.
C. Use PCA (Principal Component Analysis) to reduce the original feature set to a smaller set of easily understood features.
D. Use k-means clustering to group similar images together, and calculate the Davies-Bouldin index to evaluate the separation between clusters.
Answer 1)
B
Notes 1)
B is correct because it identifies the pixel of the input image that leads to the classification of the image itself.
Question 2: You need to write a generic test to verify whether Dense Neural Network (DNN) models automatically released by your team have a sufficient number of parameters to learn the task for which they were built. What should you do?
A. Train the model for a few iterations, and check for NaN values.

B. Train the model for a few iterations, and verify that the loss is constant.

C. Train a simple linear model, and determine if the DNN model outperforms it.

D. Train the model with no regularization, and verify that the loss function is close to zero.

Answer 2)
D
Notes 2)
D is correct because the test can check that the model has enough parameters to memorize the task.
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Question 3: Your team is using a TensorFlow Inception-v3 CNN model pretrained on ImageNet for an image classification prediction challenge on 10,000 images. You will use AI Platform to perform the model training. What TensorFlow distribution strategy and AI Platform training job configuration should you use to train the model and optimize for wall-clock time?

A. Default Strategy; Custom tier with a single master node and four v100 GPUs.

B. One Device Strategy; Custom tier with a single master node and four v100 GPUs.

C. One Device Strategy; Custom tier with a single master node and eight v100 GPUs.

D. Central Storage Strategy; Custom tier with a single master node and four v100 GPUs.

Answer 3)
D
Notes 3)
D is correct because this is the only strategy that can perform distributed training; albeit there is only a single copy of the variables on the CPU host.
Question 4: You work on a team where the process for deploying a model into production starts with data scientists training different versions of models in a Kubeflow pipeline. The workflow then stores the new model artifact into the corresponding Cloud Storage bucket. You need to build the next steps of the pipeline after the submitted model is ready to be tested and deployed in production on AI Platform. How should you configure the architecture before deploying the model to production?

A. Deploy model in test environment -> Validate model -> Create a new AI Platform model version

B. Validate model -> Deploy model in test environment -> Create a new AI Platform model version

C. Create a new AI Platform model version -> Validate model -> Deploy model in test environment

D. Create a new AI Platform model version – > Deploy model in test environment -> Validate model

Answer 4)
A

Notes 4)
A is correct because the model can be validated after it is deployed to the test environment, and the release version is established before the model is deployed in production.

Question 5: You work for a maintenance company and have built and trained a deep learning model that identifies defects based on thermal images of underground electric cables. Your dataset contains 10,000 images, 100 of which contain visible defects. How should you evaluate the performance of the model on a test dataset?

A. Calculate the Area Under the Curve (AUC) value.

B. Calculate the number of true positive results predicted by the model.

C. Calculate the fraction of images predicted by the model to have a visible defect.

D. Calculate the Cosine Similarity to compare the model’s performance on the test dataset to the model’s performance on the training dataset.

Answer 5)
A

Notes 5)
A is correct because it is scale-invariant. AUC measures how well predictions are ranked, rather than their absolute values. AUC is also classification-threshold invariant. It measures the quality of the model’s predictions irrespective of what classification threshold is chosen.

Question 6: You work for a manufacturing company that owns a high-value machine which has several machine settings and multiple sensors. A history of the machine’s hourly sensor readings and known failure event data are stored in BigQuery. You need to predict if the machine will fail within the next 3 days in order to schedule maintenance before the machine fails. Which data preparation and model training steps should you take?

A. Data preparation: Daily max value feature engineering with DataPrep; Model training: AutoML classification with BQML

B. Data preparation: Daily min value feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to True

C. Data preparation: Rolling average feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to False

D. Data preparation: Rolling average feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to True
Answer 6)
D

Notes 6)
D is correct because it uses the rolling average of the sensor data and balances the weights using the BQML auto class weight balance parameter.

Question 7: You are an ML engineer at a media company. You need to build an ML model to analyze video content frame-by-frame, identify objects, and alert users if there is inappropriate content. Which Google Cloud products should you use to build this project?

A. Pub/Sub, Cloud Function, Cloud Vision API

B. Pub/Sub, Cloud IoT, Dataflow, Cloud Vision API, Cloud Logging

C. Pub/Sub, Cloud Function, Video Intelligence API, Cloud Logging

D. Pub/Sub, Cloud Function, AutoML Video Intelligence, Cloud Logging

Answer 7)
C

Notes 7)
C is correct as Video Intelligence API can find inappropriate components and other components satisfy the requirements of real-time processing and notification.

Question 8: You work for a large retailer. You want to use ML to forecast future sales leveraging 10 years of historical sales data. The historical data is stored in Cloud Storage in Avro format. You want to rapidly experiment with all the available data. How should you build and train your model for the sales forecast?

A. Load data into BigQuery and use the ARIMA model type on BigQuery ML.

B. Convert the data into CSV format and create a regression model on AutoML Tables.

C. Convert the data into TFRecords and create an RNN model on TensorFlow on AI Platform Notebooks.

D. Convert and refactor the data into CSV format and use the built-in XGBoost algorithm on AI Platform Training.

Answer 8)
A

Notes 8)
A is correct because BigQuery ML is designed for fast and rapid experimentation and it is possible to use federated queries to read data directly from Cloud Storage. Moreover, ARIMA is considered one of the best in class for time series forecasting.

Question 9) You need to build an object detection model for a small startup company to identify if and where the company’s logo appears in an image. You were given a large repository of images, some with logos and some without. These images are not yet labelled. You need to label these pictures, and then train and deploy the model. What should you do?

A. Use Google Cloud’s Data Labelling Service to label your data. Use AutoML Object Detection to train and deploy the model.

B. Use Vision API to detect and identify logos in pictures and use it as a label. Use AI Platform to build and train a convolutional neural network.

C. Create two folders: one where the logo appears and one where it doesn’t. Manually place images in each folder. Use AI Platform to build and train a convolutional neural network.

D. Create two folders: one where the logo appears and one where it doesn’t. Manually place images in each folder. Use AI Platform to build and train a real time object detection model.

Answer 9)
A

Notes 9)
A is correct as this will allow you to easily create a request for a labelling task and deploy a high-performance model.

Question 10) You work for a large financial institution that is planning to use Dialogflow to create a chatbot for the company’s mobile app. You have reviewed old chat logs and tagged each conversation for intent based on each customer’s stated intention for contacting customer service. About 70% of customer inquiries are simple requests that are solved within 10 intents. The remaining 30% of inquiries require much longer and more complicated requests. Which intents should you automate first?
A. Automate a blend of the shortest and longest intents to be representative of all intents.

B. Automate the more complicated requests first because those require more of the agents’ time.

C. Automate the 10 intents that cover 70% of the requests so that live agents can handle the more complicated requests.

D. Automate intents in places where common words such as “payment” only appear once to avoid confusing the software.
Answer 10)
C

Notes 10)
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Machine Learning Q&A Part I:
What is best cloud solution for deep learning?
Google.
Azure and AWS are second class citizens in this area.
Sure, AWS has 70% of the market.
Sure, Azure is the easiest turn key and super user friendly.
But, the king of machine learning in the cloud is GCP.
GCP = Google Cloud Platform
Google has the largest data science team in the world, not mention they have Hinton.
Let’s forgot for a minute they created TensorFlow and give it away.
Let’s just talk about building a real world model with data that doesn’t fit into a excel spreadsheet.
The vast majority of applied machine learning is supervised and that means we need data.
Not just normal data, we need very clean highly structured data.
Where’s the easiest place in the world to upload and model a Petabyte of structured data? BigQuery of course.
Why BigQuery? I don’t have to do anything but upload my data. No spinning up RedShit clusters or whatever I have to do in Azure, just upload and massage data with my familiar SQL. If I do have to wrangle my data it won’t take my six months to update 5 rows here, minutes usually.
Then, you’ll need a front end. Cloud datalab is a Jupyter notebook, which is good because I don’t want nor do I need anything else.
Then, with a single line of code I connect by datalab (Jupyter) notebook to my data in BigQuery and build away.
I’ve worked in all three and the only thing I care about is getting to my job the fastest and right now that means I build my models in GCP.
If you’re new to machine learning don’t start in GCP or any cloud vendor for that matter. Start learning Python from the comfort of your laptop.
The course below is free to the first 20.
The Complete Python Course for Machine Learning Engineers
What are list of machine learning classification techniques?
Here, I want to share the best research paper on Machine Learning classification methods, titled ‘Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?’, published in the ‘Journal of Machine Learning Research’.
This paper nicely explained 179 classification techniques and applied them on 121 data sets thus sharing small summary of the paper:
Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?

https://jmlr.org/papers/v15/delgado14a.html

The paper evaluated 179 classifiers arising from 17 ML families (discriminant analysis, Bayesian, neural networks, support vector machines, decision trees, rule-based classifiers, boosting, bagging, stacking, random forests and other ensembles, generalized linear models, nearest neighbours, partial least squares and principal component regression, logistic and multinomial regression, multiple adaptive regression splines and other methods), implemented in Weka, R ( with and without the caret package), C and Matlab, including all the relevant classifiers available today.
Experiments used total 121 data sets , which represent the whole UCI data base (excluding the large-scale problems) and other own real problems, in order to achieve significant conclusions about the classifier behaviour, not dependent on the data set collection.
The whole data set and partitions are available from: http://persoal.citius.usc.es/manuel.fernandez.delgado/papers/jmlr/data.tar.gz
The classifiers most likely to be the bests are the random forest (RF) versions, the best of which (implemented in R and accessed via caret) achieves 94.1% of the maximum accuracy overcoming 90% in the 84.3% of the data sets. However, the difference is not statistically significant with the second best, the SVM with Gaussian kernel implemented in C using LibSVM, which achieves 92.3% of the maximum accuracy. A few models are clearly better than the remaining ones: random forest, SVM with Gaussian and polynomial kernels, extreme learning machine with Gaussian kernel, C5.0 and avNNet (a committee of multi-layer perceptrons implemented in R with the caret package).
The random forest is clearly the best family of classifiers (3 out of 5 bests classifiers are RF), followed by SVM (4 classifiers in the top-10), neural networks and boosting ensembles (5 and 3 members in the top-20, respectively).
You can see the table with the complete results: http://persoal.citius.usc.es/manuel.fernandez.delgado/papers/jmlr/results.txt
I hope it will be helpful for Statistic and Machine Leaning aspirants!
Thank you!
What is the best way to know which machine learning algorithm has a better probability to accurately or more precisely classify a dataset, before applying it?
These basic questions should help:
1. Is the classification going to be supervised or unsupervised? Several well defined techniques likes SVM (Support Vector Machines), trained neural net,etc. are applicable for supervised classification. For unsupervised classification, GMMs (Gaussian Mixture Models), HMMs (Hidden Markov models) with Baye’s techniques could be used. (Several other techniques could of course be used as well)
2.How much training data do you have in case it is supervised ? A small number of training data may yield discouraging classification accuracy even if the chosen classifier is the most suitable one for the problem. In such a case, try to obtain more number of samples. There’s also generally a correlation (for practical purposes at least) between the feature dimensionality and the number of samples for given technique. For example, while using SVM, the linear kernel tends to yield better results when the number of training samples are less than or equal to or only slightly more than the number of feature dimensions as compared to RBF or any other kernel.
3. If the feature vector dimensionality is small enough (1/2/3 -D) then it makes sense to plot and visually inspect if techniques like clustering could be more useful. With very high number of feature dimensions, methods like clustering are generally not advisable(Refer : “The Curse Of Dimensionality”).
4. Are you doing classification in real time ? Some techniques ,e.g. “Template Match” in image classification may lead to a higher number of errors but is generally faster than most other techniques if the number of templates to be evaluated are not excessively high.
5. Depending upon the problem domain, you can decide if you can choose the underlying model in such a way that it can use certain temporal/spatial correlations that may be inherent in the data. For example, HMMs use the temporal continuity of speech samples for enhancing classification results in speech recognition problems.
Another point, slightly off the topic perhaps, but the classification performance is as much a function of choosing the correct feature vectors, the pre-processing of the feature vectors as much as the classifier itself. It’s generally a good idea to give reserve some initial part of the project to try out various classifiers on the same data-set. It may at least help you reject the ones which are highly inaccurate.
What are the application of probability theory in statistics, machine learning, artificial intelligence, economic, commerce, business intelligence?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the best image segmentation pre-trained method publicly available? Currently using DeepLab demo (link attached) but I’m looking for a better version of this.

Using public photos from the internet, they were able to reconstruct viewpoints of a scene conserving the realistic shadows and lightings. Would it be possible to do this efficiently and just tag a place in Google map and get the 3D scene from it?

Do you think GPT-3 will change our lives, or is it just hype? Are the applications really useful and real, in the real-world, or are they only the hand-picked results by the researchers and startup to get some hype around them and followers?

Suggest some really good ML projects? Which can be worth adding to CV or resume?

Is it possible to finish Andrew Ng’s course on ML in 15 days?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I learn machine learning?

I’ve reached a dead end with my algorithm for Exact Three Cover, and it’s supposedly trash. What makes it trash?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I get started with learning Machine Learning by myself?

What is more preferable in machine learning, the accuracy of model A is 50% on training data and 97% on test data, or is model B with 80% accuracy on train data and 75 % accuracy on test data?(more detail in comment below) thank you!
How does the training data cause overfitting?

I’ve seen you emphasize mathematical knowledge being important in data science/machine learning. Mike West emphasizes SQL and Python skills (the former especially) as being the most important. Where does this difference in opinion stem from?

If I am a beginner at machine learning and my current goal is publish a good paper within 6 month how should I start with considering I have no experience in publications and what ML topic I should pick in 2020?

What are the differences between the Bayesian and Frequentist methods within machine learning?

What is overfitting?

Why is the Gaussian distribution widely used in practice?

Are there any criteria to distinguish overfitting?

What are examples of Deep Learning overfitting?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the Confusion Matrix in Machine Learning?- Simplest Explanation!

Is Julia’s syntax even more intuitive than Python’s?

Andrew Ng: What is the Future of Deep Reinforcement Learning (DL + RL)?

How is TensorFlow/Keras capable of computing seemingly non-smooth loss functions such as max?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How does image recognition work in MATLAB?

What is the future of TensorFlow?

What is the first thing you do when looking at a new data set?

How do I get data science, computer vision, and machine learning tutorial apps?
Try this one

Reinforcement learning (RL) is an area of machine learning concerned with how software agents ought to take actions in an environment in order to maximize the notion of cumulative reward. Reinforcement learning is one of three basic machine learning

Announcing our new Professional Machine Learning Engineer certification…

What is the best machine learning paper you have read in 2018?

Does every paper in machine learning introduce a new algorithm?

Predicting Credit Card Approvals using ML Techniques

What is an intuitive explanation for convolution?

Android Document Scanner with offline OCR application

What are the recommended data pre-processing methods for tree-based machine learning models?

What are some interesting statistics about the growing rate of the Julia programming language?

Is it possible to learn machine learning without prior knowledge in any coding language?

What skills does a data scientist need to learn in order to put machine learning models in production?
At a high level, these skills are a combination of software and data engineering.
The persons that are more appropriate to do this job are a data engineer and/or a machine learning engineer.
That being said, if you work at a startup or happen to be in a small company and need to put the models into production yourself, here are the top skills you need to get:
Well structured code: it doesn’t need to be perfect but at least can be understood and updated by other team members. Avoid spaghetti code[1] as the plague.
Add logs: if you are a Python user, the logging[2] module is your friend. Avoid print statements at any cost.
Model versioning: add a hash key to your different models. You will thank me later.
Metadata everywhere: save as much data about your models and ML experiments as you can (running time, hyperparameters, used features, CV scores, and so on). You will thank me later, again.
Monitor performances: execution time and statistical scores of your models.
Data and models management: store the necessary data and models somewhere that is available to everyone (S3[3] for example). Avoid uploading these to your VCS[4] system. Don’t share them using Slack or Drive. I won’t judge you though, I do it sometimes (read often). Read more here …..
What are some mistakes data scientists make when building machine learning models?
Some of the mistakes that might involve during building a machine learning model (I can think of) are listed here:
Not understanding the structure of the dataset
Not giving proper care during features selection
Leaving out categorical features and considering just numerical variables
Falling into dummy variable trap
Selection of inefficient machine learning algorithm
Not trying out various ML algorithms for building the model based on structure of data.
Improper tuning of model parameters
Most importantly: Building an idiotstic imperfect model i.e. suppose we have a classification problem with 99% chances of falling into class1 and remaining to class2. The built model may develop a mapping function which all the time for all data inputs, may predict the result to be class1. Well, one might say his/her model has 99% accuracy. But in reality the 1% class2 case hasn’t been included in the model. So this must be taken into consideration.
Read more here…
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[appbox googleplay com.awssolutionarchitectassociateexampreppro.app]
What is the difference between data analytics and data mining?
Basically, data mining is a key aspect of data analytics. Some even consider the former as essential to execute before the latter. While data analytics is the complete package and involves most components needed to examine a data set and extract valuable information, data mining focuses specifically on identifying hidden patterns.
That’s just the surface-level comparison though. The image above gives an overview of how the two differ.
One such difference is the presence of a hypothesis. Data analytics usually requires coming up with one, as it aims to find specific answers. Data mining, on the other hand, generally doesn’t need one to test or prove. The expected output are patterns or trends, which doesn’t require coming up with a statement or fact to test.
However, that doesn’t mean you mine data blindly. You still have a goal, whether it’s to come up with a recommender system or identify predictors of a certain dimension. Ultimately though, you strive to come up with data patterns or trends. For data analysis on the other hand, you’re expected to come up with valuable and actionable insights, usually in relation to a predetermined hypothesis. Read more here ….
What is the life cycle of a data science project?
The data science life cycle is not something well-defined like the software development life-cycle, and there is no ‘one-size-fits-all’ solution for data science projects. Every step in the life-cycle of a data science project depends on various data scientist skills and data science tools. The typical life-cycle of a data science project involves jumping back and forth among various interdependent science tasks using a variety of tools, techniques, programming, etc.
Thus, the data science life-cycle can include the following steps:
Business requirement understanding.
Data collection.
Data cleaning.
Data analysis.
Modeling.
Performance evaluation.
Communicating with stakeholders.
Deployment.
Real-world testing.
Business buy-in.
Support and maintenance.
Looks neat, but here is the scheme to visualize how it is happening in reality:
Agile development processes, especially continuous delivery lends itself well to the data science project life-cycle. The early comparison helps the data science team to change approaches, refine hypotheses and even discard the project if the business case is nonviable or the benefits from the predictive models are not worth the effort to build it.
Read more here….

Top
[appbox appstore 1611045854-iphone screenshots]
[appbox microsoftstore 9n8rl80hvm4t-mobile screenshots]
Machine Learning Q&A -Part II:

What are the application of probability theory in statistics, machine learning, artificial intelligence, economic, commerce, business intelligence?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the best image segmentation pre-trained method publicly available? Currently using DeepLab demo (link attached) but I’m looking for a better version of this.

Using public photos from the internet, they were able to reconstruct viewpoints of a scene conserving the realistic shadows and lightings. Would it be possible to do this efficiently and just tag a place in Google map and get the 3D scene from it?

Do you think GPT-3 will change our lives, or is it just hype? Are the applications really useful and real, in the real-world, or are they only the hand-picked results by the researchers and startup to get some hype around them and followers?

Suggest some really good ML projects? Which can be worth adding to CV or resume?

Is it possible to finish Andrew Ng’s course on ML in 15 days?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I learn machine learning?

I’ve reached a dead end with my algorithm for Exact Three Cover, and it’s supposedly trash. What makes it trash?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I get started with learning Machine Learning by myself?

What is more preferable in machine learning, the accuracy of model A is 50% on training data and 97% on test data, or is model B with 80% accuracy on train data and 75 % accuracy on test data?(more detail in comment below) thank you!
How does the training data cause overfitting?

I’ve seen you emphasize mathematical knowledge being important in data science/machine learning. Mike West emphasizes SQL and Python skills (the former especially) as being the most important. Where does this difference in opinion stem from?

If I am a beginner at machine learning and my current goal is publish a good paper within 6 month how should I start with considering I have no experience in publications and what ML topic I should pick in 2020?

What are the differences between the Bayesian and Frequentist methods within machine learning?

What is overfitting?

Why is the Gaussian distribution widely used in practice?

Are there any criteria to distinguish overfitting?

What are examples of Deep Learning overfitting?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the Confusion Matrix in Machine Learning?- Simplest Explanation!

Is Julia’s syntax even more intuitive than Python’s?

Andrew Ng: What is the Future of Deep Reinforcement Learning (DL + RL)?

How is TensorFlow/Keras capable of computing seemingly non-smooth loss functions such as max?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How does image recognition work in MATLAB?

What is the future of TensorFlow?

What is the first thing you do when looking at a new data set?

How do I get data science, computer vision, and machine learning tutorial apps?
Try this one

Reinforcement learning (RL) is an area of machine learning concerned with how software agents ought to take actions in an environment in order to maximize the notion of cumulative reward. Reinforcement learning is one of three basic machine learning

Announcing our new Professional Machine Learning Engineer certification…

What is the best machine learning paper you have read in 2018?

Does every paper in machine learning introduce a new algorithm?

Predicting Credit Card Approvals using ML Techniques

What is an intuitive explanation for convolution?

Android Document Scanner with offline OCR application

What are the recommended data pre-processing methods for tree-based machine learning models?

What are some interesting statistics about the growing rate of the Julia programming language?

Is it possible to learn machine learning without prior knowledge in any coding language?

What skills does a data scientist need to learn in order to put machine learning models in production?
At a high level, these skills are a combination of software and data engineering.
The persons that are more appropriate to do this job are a data engineer and/or a machine learning engineer.
That being said, if you work at a startup or happen to be in a small company and need to put the models into production yourself, here are the top skills you need to get:
Well structured code: it doesn’t need to be perfect but at least can be understood and updated by other team members. Avoid spaghetti code[1] as the plague.
Add logs: if you are a Python user, the logging[2] module is your friend. Avoid print statements at any cost.
Model versioning: add a hash key to your different models. You will thank me later.
Metadata everywhere: save as much data about your models and ML experiments as you can (running time, hyperparameters, used features, CV scores, and so on). You will thank me later, again.
Monitor performances: execution time and statistical scores of your models.
Data and models management: store the necessary data and models somewhere that is available to everyone (S3[3] for example). Avoid uploading these to your VCS[4] system. Don’t share them using Slack or Drive. I won’t judge you though, I do it sometimes (read often). Read more here …..
What are some mistakes data scientists make when building machine learning models?
Some of the mistakes that might involve during building a machine learning model (I can think of) are listed here:
Not understanding the structure of the dataset
Not giving proper care during features selection
Leaving out categorical features and considering just numerical variables
Falling into dummy variable trap
Selection of inefficient machine learning algorithm
Not trying out various ML algorithms for building the model based on structure of data.
Improper tuning of model parameters
Most importantly: Building an idiotstic imperfect model i.e. suppose we have a classification problem with 99% chances of falling into class1 and remaining to class2. The built model may develop a mapping function which all the time for all data inputs, may predict the result to be class1. Well, one might say his/her model has 99% accuracy. But in reality the 1% class2 case hasn’t been included in the model. So this must be taken into consideration.
Read more here…
What is the difference between data analytics and data mining?
Basically, data mining is a key aspect of data analytics. Some even consider the former as essential to execute before the latter. While data analytics is the complete package and involves most components needed to examine a data set and extract valuable information, data mining focuses specifically on identifying hidden patterns.
That’s just the surface-level comparison though. The image above gives an overview of how the two differ.
One such difference is the presence of a hypothesis. Data analytics usually requires coming up with one, as it aims to find specific answers. Data mining, on the other hand, generally doesn’t need one to test or prove. The expected output are patterns or trends, which doesn’t require coming up with a statement or fact to test.
However, that doesn’t mean you mine data blindly. You still have a goal, whether it’s to come up with a recommender system or identify predictors of a certain dimension. Ultimately though, you strive to come up with data patterns or trends. For data analysis on the other hand, you’re expected to come up with valuable and actionable insights, usually in relation to a predetermined hypothesis. Read more here ….
What is the life cycle of a data science project?
The data science life cycle is not something well-defined like the software development life-cycle, and there is no ‘one-size-fits-all’ solution for data science projects. Every step in the life-cycle of a data science project depends on various data scientist skills and data science tools. The typical life-cycle of a data science project involves jumping back and forth among various interdependent science tasks using a variety of tools, techniques, programming, etc.
Thus, the data science life-cycle can include the following steps:
Business requirement understanding.
Data collection.
Data cleaning.
Data analysis.
Modeling.
Performance evaluation.
Communicating with stakeholders.
Deployment.
Real-world testing.
Business buy-in.
Support and maintenance.
Looks neat, but here is the scheme to visualize how it is happening in reality:
Agile development processes, especially continuous delivery lends itself well to the data science project life-cycle. The early comparison helps the data science team to change approaches, refine hypotheses and even discard the project if the business case is nonviable or the benefits from the predictive models are not worth the effort to build it.
Read more here….

Top

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AWS MLS-C01 Machine Learning Exam Prep
Quizzes, Practice Exams: Modeling, Data Engineering, Vision, Exploratory Data Analysis, ML Ops, Cheat Sheets, ML Jobs Interview Q&A
Use this App to learn about Machine Learning on AWS and prepare for the AWS Machine Learning Specialty Certification MLS-C01.
Earning AWS Certified Machine Learning Specialty validates expertise in building, training, tuning, and deploying machine learning (ML) models on AWS.
The App provides hundreds of quizzes and practice exam about:
– Machine Learning Operation on AWS
– Modelling
– Data Engineering
– Computer Vision,
– Exploratory Data Analysis,
– ML implementation & Operations
– Machine Learning Basics Questions and Answers
– Machine Learning Advanced Questions and Answers
– Scorecard
– Countdown timer
– Machine Learning Cheat Sheets
– Machine Learning Interview Questions and Answers
– Machine Learning Latest News
The App covers Machine Learning Basics and Advanced topics including: NLP, Computer Vision, Python, linear regression, logistic regression, Sampling, dataset, statistical interaction, selection bias, non-Gaussian distribution, bias-variance trade-off, Normal Distribution, correlation and covariance, Point Estimates and Confidence Interval, A/B Testing, p-value, statistical power of sensitivity, over-fitting and under-fitting, regularization, Law of Large Numbers, Confounding Variables, Survivorship Bias, univariate, bivariate and multivariate, Resampling, ROC curve, TF/IDF vectorization, Cluster Sampling, etc.
Domain 1: Data Engineering
Create data repositories for machine learning.
Identify data sources (e.g., content and location, primary sources such as user data)
Determine storage mediums (e.g., DB, Data Lake, S3, EFS, EBS)
Identify and implement a data ingestion solution.
Data job styles/types (batch load, streaming)
Data ingestion pipelines (Batch-based ML workloads and streaming-based ML workloads), etc.
Domain 2: Exploratory Data Analysis
Sanitize and prepare data for modeling.
Perform feature engineering.
Analyze and visualize data for machine learning.
Domain 3: Modeling
Frame business problems as machine learning problems.
Select the appropriate model(s) for a given machine learning problem.
Train machine learning models.
Perform hyperparameter optimization.
Evaluate machine learning models.
Domain 4: Machine Learning Implementation and Operations
Build machine learning solutions for performance, availability, scalability, resiliency, and fault tolerance.
Recommend and implement the appropriate machine learning services and features for a given problem.
Apply basic AWS security practices to machine learning solutions.
Deploy and operationalize machine learning solutions.
Machine Learning Services covered:
Amazon Comprehend
AWS Deep Learning AMIs (DLAMI)
AWS DeepLens
Amazon Forecast
Amazon Fraud Detector
Amazon Lex
Amazon Polly
Amazon Rekognition
Amazon SageMaker
Amazon Textract
Amazon Transcribe
Amazon Translate
Other Services and topics covered are:
Ingestion/Collection
Processing/ETL
Data analysis/visualization
Model training
Model deployment/inference
Operational
AWS ML application services
Language relevant to ML (for example, Python, Java, Scala, R, SQL)
Notebooks and integrated development environments (IDEs),
S3, SageMaker, Kinesis, Lake Formation, Athena, Kibana, Redshift, Textract, EMR, Glue, SageMaker, CSV, JSON, IMG, parquet or databases, Amazon Athena
Amazon EC2, Amazon Elastic Container Registry (Amazon ECR), Amazon Elastic Container Service, Amazon Elastic Kubernetes Service , Amazon Redshift
Sagemaker API Explained:
AWS Certified Machine Learning Engineer Specialty Questions and Answers:
Question1: An advertising and analytics company uses machine learning to predict user response to online advertisements using a custom XGBoost model. The company wants to improve its ML pipeline by porting its training and inference code, written in R, to Amazon SageMaker, and do so with minimal changes to the existing code.
Answer1: Use the Build Your Own Container (BYOC) Amazon Sagemaker option.
Create a new docker container with the existing code. Register the container in Amazon Elastic Container registry. with the existing code. Register the container in Amazon Elastic Container Registry. Finally run the training and inference jobs using this container.
Question2: Which feature of Amazon SageMaker can you use for preprocessing the data?

Amazon SageMaker training jobs
Amazon SageMaker hyperaparameter tuning
Amazon SageMaker notebook instances
Amazon SageMaker endpoints
Answer2: Amazon Sagemaker Notebook instances
Amazon SageMaker enables developers and data scientists to build, train, tune, and deploy machine learning (ML) models at scale. You can deploy trained ML models for real-time or batch predictions on unseen data, a process known as inference. However, in most cases, the raw input data must be preprocessed and can’t be used directly for making predictions. This is because most ML models expect the data in a predefined format, so the raw data needs to be first cleaned and formatted in order for the ML model to process the data. You can use the Amazon SageMaker built-in Scikit-learn library for preprocessing input data and then use the Amazon SageMaker built-in Linear Learner algorithm for predictions.
Question3: What setting, when creating an Amazon SageMaker notebook instance, can you use to install libraries and import data?
Answer3: LifeCycle Configuration
Question4: How to Choose the right Sagemaker built-in algorithm?
How to chose the right built in algorithm in SageMaker?
Guide to choosing the right unsupervised learning algorithm

Choosing the right ML algorithm based on Data Type

Choosing the right ML algo based on data type
This is a general guide for choosing which algorithm to use depending on what business problem you have and what data you have.

Top
Top 10 Google Professional Machine Learning Engineer Sample Questions
Question 1: You work for a textile manufacturer and have been asked to build a model to detect and classify fabric defects. You trained a machine learning model with high recall based on high resolution images taken at the end of the production line. You want quality control inspectors to gain trust in your model. Which technique should you use to understand the rationale of your classifier?
A. Use K-fold cross validation to understand how the model performs on different test datasets.
B. Use the Integrated Gradients method to efficiently compute feature attributions for each predicted image.
C. Use PCA (Principal Component Analysis) to reduce the original feature set to a smaller set of easily understood features.
D. Use k-means clustering to group similar images together, and calculate the Davies-Bouldin index to evaluate the separation between clusters.
Answer 1)
B
Notes 1)
B is correct because it identifies the pixel of the input image that leads to the classification of the image itself.
Question 2: You need to write a generic test to verify whether Dense Neural Network (DNN) models automatically released by your team have a sufficient number of parameters to learn the task for which they were built. What should you do?
A. Train the model for a few iterations, and check for NaN values.

B. Train the model for a few iterations, and verify that the loss is constant.

C. Train a simple linear model, and determine if the DNN model outperforms it.

D. Train the model with no regularization, and verify that the loss function is close to zero.

Answer 2)
D
Notes 2)
D is correct because the test can check that the model has enough parameters to memorize the task.
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Question 3: Your team is using a TensorFlow Inception-v3 CNN model pretrained on ImageNet for an image classification prediction challenge on 10,000 images. You will use AI Platform to perform the model training. What TensorFlow distribution strategy and AI Platform training job configuration should you use to train the model and optimize for wall-clock time?

A. Default Strategy; Custom tier with a single master node and four v100 GPUs.

B. One Device Strategy; Custom tier with a single master node and four v100 GPUs.

C. One Device Strategy; Custom tier with a single master node and eight v100 GPUs.

D. Central Storage Strategy; Custom tier with a single master node and four v100 GPUs.

Answer 3)
D
Notes 3)
D is correct because this is the only strategy that can perform distributed training; albeit there is only a single copy of the variables on the CPU host.
Question 4: You work on a team where the process for deploying a model into production starts with data scientists training different versions of models in a Kubeflow pipeline. The workflow then stores the new model artifact into the corresponding Cloud Storage bucket. You need to build the next steps of the pipeline after the submitted model is ready to be tested and deployed in production on AI Platform. How should you configure the architecture before deploying the model to production?

A. Deploy model in test environment -> Validate model -> Create a new AI Platform model version

B. Validate model -> Deploy model in test environment -> Create a new AI Platform model version

C. Create a new AI Platform model version -> Validate model -> Deploy model in test environment

D. Create a new AI Platform model version – > Deploy model in test environment -> Validate model

Answer 4)
A

Notes 4)
A is correct because the model can be validated after it is deployed to the test environment, and the release version is established before the model is deployed in production.

Question 5: You work for a maintenance company and have built and trained a deep learning model that identifies defects based on thermal images of underground electric cables. Your dataset contains 10,000 images, 100 of which contain visible defects. How should you evaluate the performance of the model on a test dataset?

A. Calculate the Area Under the Curve (AUC) value.

B. Calculate the number of true positive results predicted by the model.

C. Calculate the fraction of images predicted by the model to have a visible defect.

D. Calculate the Cosine Similarity to compare the model’s performance on the test dataset to the model’s performance on the training dataset.

Answer 5)
A

Notes 5)
A is correct because it is scale-invariant. AUC measures how well predictions are ranked, rather than their absolute values. AUC is also classification-threshold invariant. It measures the quality of the model’s predictions irrespective of what classification threshold is chosen.

Question 6: You work for a manufacturing company that owns a high-value machine which has several machine settings and multiple sensors. A history of the machine’s hourly sensor readings and known failure event data are stored in BigQuery. You need to predict if the machine will fail within the next 3 days in order to schedule maintenance before the machine fails. Which data preparation and model training steps should you take?

A. Data preparation: Daily max value feature engineering with DataPrep; Model training: AutoML classification with BQML

B. Data preparation: Daily min value feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to True

C. Data preparation: Rolling average feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to False

D. Data preparation: Rolling average feature engineering with DataPrep; Model training: Logistic regression with BQML and AUTO_CLASS_WEIGHTS set to True
Answer 6)
D

Notes 6)
D is correct because it uses the rolling average of the sensor data and balances the weights using the BQML auto class weight balance parameter.

Question 7: You are an ML engineer at a media company. You need to build an ML model to analyze video content frame-by-frame, identify objects, and alert users if there is inappropriate content. Which Google Cloud products should you use to build this project?

A. Pub/Sub, Cloud Function, Cloud Vision API

B. Pub/Sub, Cloud IoT, Dataflow, Cloud Vision API, Cloud Logging

C. Pub/Sub, Cloud Function, Video Intelligence API, Cloud Logging

D. Pub/Sub, Cloud Function, AutoML Video Intelligence, Cloud Logging

Answer 7)
C

Notes 7)
C is correct as Video Intelligence API can find inappropriate components and other components satisfy the requirements of real-time processing and notification.

Question 8: You work for a large retailer. You want to use ML to forecast future sales leveraging 10 years of historical sales data. The historical data is stored in Cloud Storage in Avro format. You want to rapidly experiment with all the available data. How should you build and train your model for the sales forecast?

A. Load data into BigQuery and use the ARIMA model type on BigQuery ML.

B. Convert the data into CSV format and create a regression model on AutoML Tables.

C. Convert the data into TFRecords and create an RNN model on TensorFlow on AI Platform Notebooks.

D. Convert and refactor the data into CSV format and use the built-in XGBoost algorithm on AI Platform Training.

Answer 8)
A

Notes 8)
A is correct because BigQuery ML is designed for fast and rapid experimentation and it is possible to use federated queries to read data directly from Cloud Storage. Moreover, ARIMA is considered one of the best in class for time series forecasting.

Question 9) You need to build an object detection model for a small startup company to identify if and where the company’s logo appears in an image. You were given a large repository of images, some with logos and some without. These images are not yet labelled. You need to label these pictures, and then train and deploy the model. What should you do?

A. Use Google Cloud’s Data Labelling Service to label your data. Use AutoML Object Detection to train and deploy the model.

B. Use Vision API to detect and identify logos in pictures and use it as a label. Use AI Platform to build and train a convolutional neural network.

C. Create two folders: one where the logo appears and one where it doesn’t. Manually place images in each folder. Use AI Platform to build and train a convolutional neural network.

D. Create two folders: one where the logo appears and one where it doesn’t. Manually place images in each folder. Use AI Platform to build and train a real time object detection model.

Answer 9)
A

Notes 9)
A is correct as this will allow you to easily create a request for a labelling task and deploy a high-performance model.

Question 10) You work for a large financial institution that is planning to use Dialogflow to create a chatbot for the company’s mobile app. You have reviewed old chat logs and tagged each conversation for intent based on each customer’s stated intention for contacting customer service. About 70% of customer inquiries are simple requests that are solved within 10 intents. The remaining 30% of inquiries require much longer and more complicated requests. Which intents should you automate first?
A. Automate a blend of the shortest and longest intents to be representative of all intents.

B. Automate the more complicated requests first because those require more of the agents’ time.

C. Automate the 10 intents that cover 70% of the requests so that live agents can handle the more complicated requests.

D. Automate intents in places where common words such as “payment” only appear once to avoid confusing the software.
Answer 10)
C

Notes 10)
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Machine Learning Q&A Part I:
What is best cloud solution for deep learning?
Google.
Azure and AWS are second class citizens in this area.
Sure, AWS has 70% of the market.
Sure, Azure is the easiest turn key and super user friendly.
But, the king of machine learning in the cloud is GCP.
GCP = Google Cloud Platform
Google has the largest data science team in the world, not mention they have Hinton.
Let’s forgot for a minute they created TensorFlow and give it away.
Let’s just talk about building a real world model with data that doesn’t fit into a excel spreadsheet.
The vast majority of applied machine learning is supervised and that means we need data.
Not just normal data, we need very clean highly structured data.
Where’s the easiest place in the world to upload and model a Petabyte of structured data? BigQuery of course.
Why BigQuery? I don’t have to do anything but upload my data. No spinning up RedShit clusters or whatever I have to do in Azure, just upload and massage data with my familiar SQL. If I do have to wrangle my data it won’t take my six months to update 5 rows here, minutes usually.
Then, you’ll need a front end. Cloud datalab is a Jupyter notebook, which is good because I don’t want nor do I need anything else.
Then, with a single line of code I connect by datalab (Jupyter) notebook to my data in BigQuery and build away.
I’ve worked in all three and the only thing I care about is getting to my job the fastest and right now that means I build my models in GCP.
If you’re new to machine learning don’t start in GCP or any cloud vendor for that matter. Start learning Python from the comfort of your laptop.
The course below is free to the first 20.
The Complete Python Course for Machine Learning Engineers
What are list of machine learning classification techniques?
Here, I want to share the best research paper on Machine Learning classification methods, titled ‘Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?’, published in the ‘Journal of Machine Learning Research’.
This paper nicely explained 179 classification techniques and applied them on 121 data sets thus sharing small summary of the paper:
Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?

https://jmlr.org/papers/v15/delgado14a.html

The paper evaluated 179 classifiers arising from 17 ML families (discriminant analysis, Bayesian, neural networks, support vector machines, decision trees, rule-based classifiers, boosting, bagging, stacking, random forests and other ensembles, generalized linear models, nearest neighbours, partial least squares and principal component regression, logistic and multinomial regression, multiple adaptive regression splines and other methods), implemented in Weka, R ( with and without the caret package), C and Matlab, including all the relevant classifiers available today.
Experiments used total 121 data sets , which represent the whole UCI data base (excluding the large-scale problems) and other own real problems, in order to achieve significant conclusions about the classifier behaviour, not dependent on the data set collection.
The whole data set and partitions are available from: http://persoal.citius.usc.es/manuel.fernandez.delgado/papers/jmlr/data.tar.gz
The classifiers most likely to be the bests are the random forest (RF) versions, the best of which (implemented in R and accessed via caret) achieves 94.1% of the maximum accuracy overcoming 90% in the 84.3% of the data sets. However, the difference is not statistically significant with the second best, the SVM with Gaussian kernel implemented in C using LibSVM, which achieves 92.3% of the maximum accuracy. A few models are clearly better than the remaining ones: random forest, SVM with Gaussian and polynomial kernels, extreme learning machine with Gaussian kernel, C5.0 and avNNet (a committee of multi-layer perceptrons implemented in R with the caret package).
The random forest is clearly the best family of classifiers (3 out of 5 bests classifiers are RF), followed by SVM (4 classifiers in the top-10), neural networks and boosting ensembles (5 and 3 members in the top-20, respectively).
You can see the table with the complete results: http://persoal.citius.usc.es/manuel.fernandez.delgado/papers/jmlr/results.txt
I hope it will be helpful for Statistic and Machine Leaning aspirants!
Thank you!
What is the best way to know which machine learning algorithm has a better probability to accurately or more precisely classify a dataset, before applying it?
These basic questions should help:
1. Is the classification going to be supervised or unsupervised? Several well defined techniques likes SVM (Support Vector Machines), trained neural net,etc. are applicable for supervised classification. For unsupervised classification, GMMs (Gaussian Mixture Models), HMMs (Hidden Markov models) with Baye’s techniques could be used. (Several other techniques could of course be used as well)
2.How much training data do you have in case it is supervised ? A small number of training data may yield discouraging classification accuracy even if the chosen classifier is the most suitable one for the problem. In such a case, try to obtain more number of samples. There’s also generally a correlation (for practical purposes at least) between the feature dimensionality and the number of samples for given technique. For example, while using SVM, the linear kernel tends to yield better results when the number of training samples are less than or equal to or only slightly more than the number of feature dimensions as compared to RBF or any other kernel.
3. If the feature vector dimensionality is small enough (1/2/3 -D) then it makes sense to plot and visually inspect if techniques like clustering could be more useful. With very high number of feature dimensions, methods like clustering are generally not advisable(Refer : “The Curse Of Dimensionality”).
4. Are you doing classification in real time ? Some techniques ,e.g. “Template Match” in image classification may lead to a higher number of errors but is generally faster than most other techniques if the number of templates to be evaluated are not excessively high.
5. Depending upon the problem domain, you can decide if you can choose the underlying model in such a way that it can use certain temporal/spatial correlations that may be inherent in the data. For example, HMMs use the temporal continuity of speech samples for enhancing classification results in speech recognition problems.
Another point, slightly off the topic perhaps, but the classification performance is as much a function of choosing the correct feature vectors, the pre-processing of the feature vectors as much as the classifier itself. It’s generally a good idea to give reserve some initial part of the project to try out various classifiers on the same data-set. It may at least help you reject the ones which are highly inaccurate.
What are the application of probability theory in statistics, machine learning, artificial intelligence, economic, commerce, business intelligence?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the best image segmentation pre-trained method publicly available? Currently using DeepLab demo (link attached) but I’m looking for a better version of this.

Using public photos from the internet, they were able to reconstruct viewpoints of a scene conserving the realistic shadows and lightings. Would it be possible to do this efficiently and just tag a place in Google map and get the 3D scene from it?

Do you think GPT-3 will change our lives, or is it just hype? Are the applications really useful and real, in the real-world, or are they only the hand-picked results by the researchers and startup to get some hype around them and followers?

Suggest some really good ML projects? Which can be worth adding to CV or resume?

Is it possible to finish Andrew Ng’s course on ML in 15 days?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I learn machine learning?

I’ve reached a dead end with my algorithm for Exact Three Cover, and it’s supposedly trash. What makes it trash?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I get started with learning Machine Learning by myself?

What is more preferable in machine learning, the accuracy of model A is 50% on training data and 97% on test data, or is model B with 80% accuracy on train data and 75 % accuracy on test data?(more detail in comment below) thank you!
How does the training data cause overfitting?

I’ve seen you emphasize mathematical knowledge being important in data science/machine learning. Mike West emphasizes SQL and Python skills (the former especially) as being the most important. Where does this difference in opinion stem from?

If I am a beginner at machine learning and my current goal is publish a good paper within 6 month how should I start with considering I have no experience in publications and what ML topic I should pick in 2020?

What are the differences between the Bayesian and Frequentist methods within machine learning?

What is overfitting?

Why is the Gaussian distribution widely used in practice?

Are there any criteria to distinguish overfitting?

What are examples of Deep Learning overfitting?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the Confusion Matrix in Machine Learning?- Simplest Explanation!

Is Julia’s syntax even more intuitive than Python’s?

Andrew Ng: What is the Future of Deep Reinforcement Learning (DL + RL)?

How is TensorFlow/Keras capable of computing seemingly non-smooth loss functions such as max?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How does image recognition work in MATLAB?

What is the future of TensorFlow?

What is the first thing you do when looking at a new data set?

How do I get data science, computer vision, and machine learning tutorial apps?
Try this one

Reinforcement learning (RL) is an area of machine learning concerned with how software agents ought to take actions in an environment in order to maximize the notion of cumulative reward. Reinforcement learning is one of three basic machine learning

Announcing our new Professional Machine Learning Engineer certification…

What is the best machine learning paper you have read in 2018?

Does every paper in machine learning introduce a new algorithm?

Predicting Credit Card Approvals using ML Techniques

What is an intuitive explanation for convolution?

Android Document Scanner with offline OCR application

What are the recommended data pre-processing methods for tree-based machine learning models?

What are some interesting statistics about the growing rate of the Julia programming language?

Is it possible to learn machine learning without prior knowledge in any coding language?

What skills does a data scientist need to learn in order to put machine learning models in production?
At a high level, these skills are a combination of software and data engineering.
The persons that are more appropriate to do this job are a data engineer and/or a machine learning engineer.
That being said, if you work at a startup or happen to be in a small company and need to put the models into production yourself, here are the top skills you need to get:
Well structured code: it doesn’t need to be perfect but at least can be understood and updated by other team members. Avoid spaghetti code[1] as the plague.
Add logs: if you are a Python user, the logging[2] module is your friend. Avoid print statements at any cost.
Model versioning: add a hash key to your different models. You will thank me later.
Metadata everywhere: save as much data about your models and ML experiments as you can (running time, hyperparameters, used features, CV scores, and so on). You will thank me later, again.
Monitor performances: execution time and statistical scores of your models.
Data and models management: store the necessary data and models somewhere that is available to everyone (S3[3] for example). Avoid uploading these to your VCS[4] system. Don’t share them using Slack or Drive. I won’t judge you though, I do it sometimes (read often). Read more here …..
What are some mistakes data scientists make when building machine learning models?
Some of the mistakes that might involve during building a machine learning model (I can think of) are listed here:
Not understanding the structure of the dataset
Not giving proper care during features selection
Leaving out categorical features and considering just numerical variables
Falling into dummy variable trap
Selection of inefficient machine learning algorithm
Not trying out various ML algorithms for building the model based on structure of data.
Improper tuning of model parameters
Most importantly: Building an idiotstic imperfect model i.e. suppose we have a classification problem with 99% chances of falling into class1 and remaining to class2. The built model may develop a mapping function which all the time for all data inputs, may predict the result to be class1. Well, one might say his/her model has 99% accuracy. But in reality the 1% class2 case hasn’t been included in the model. So this must be taken into consideration.
Read more here…
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[appbox googleplay com.awssolutionarchitectassociateexampreppro.app]
What is the difference between data analytics and data mining?
Basically, data mining is a key aspect of data analytics. Some even consider the former as essential to execute before the latter. While data analytics is the complete package and involves most components needed to examine a data set and extract valuable information, data mining focuses specifically on identifying hidden patterns.
That’s just the surface-level comparison though. The image above gives an overview of how the two differ.
One such difference is the presence of a hypothesis. Data analytics usually requires coming up with one, as it aims to find specific answers. Data mining, on the other hand, generally doesn’t need one to test or prove. The expected output are patterns or trends, which doesn’t require coming up with a statement or fact to test.
However, that doesn’t mean you mine data blindly. You still have a goal, whether it’s to come up with a recommender system or identify predictors of a certain dimension. Ultimately though, you strive to come up with data patterns or trends. For data analysis on the other hand, you’re expected to come up with valuable and actionable insights, usually in relation to a predetermined hypothesis. Read more here ….
What is the life cycle of a data science project?
The data science life cycle is not something well-defined like the software development life-cycle, and there is no ‘one-size-fits-all’ solution for data science projects. Every step in the life-cycle of a data science project depends on various data scientist skills and data science tools. The typical life-cycle of a data science project involves jumping back and forth among various interdependent science tasks using a variety of tools, techniques, programming, etc.
Thus, the data science life-cycle can include the following steps:
Business requirement understanding.
Data collection.
Data cleaning.
Data analysis.
Modeling.
Performance evaluation.
Communicating with stakeholders.
Deployment.
Real-world testing.
Business buy-in.
Support and maintenance.
Looks neat, but here is the scheme to visualize how it is happening in reality:
Agile development processes, especially continuous delivery lends itself well to the data science project life-cycle. The early comparison helps the data science team to change approaches, refine hypotheses and even discard the project if the business case is nonviable or the benefits from the predictive models are not worth the effort to build it.
Read more here….

Top
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[appbox microsoftstore 9n8rl80hvm4t-mobile screenshots]
Machine Learning Q&A -Part II:

What are the application of probability theory in statistics, machine learning, artificial intelligence, economic, commerce, business intelligence?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the best image segmentation pre-trained method publicly available? Currently using DeepLab demo (link attached) but I’m looking for a better version of this.

Using public photos from the internet, they were able to reconstruct viewpoints of a scene conserving the realistic shadows and lightings. Would it be possible to do this efficiently and just tag a place in Google map and get the 3D scene from it?

Do you think GPT-3 will change our lives, or is it just hype? Are the applications really useful and real, in the real-world, or are they only the hand-picked results by the researchers and startup to get some hype around them and followers?

Suggest some really good ML projects? Which can be worth adding to CV or resume?

Is it possible to finish Andrew Ng’s course on ML in 15 days?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I learn machine learning?

I’ve reached a dead end with my algorithm for Exact Three Cover, and it’s supposedly trash. What makes it trash?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How do I get started with learning Machine Learning by myself?

What is more preferable in machine learning, the accuracy of model A is 50% on training data and 97% on test data, or is model B with 80% accuracy on train data and 75 % accuracy on test data?(more detail in comment below) thank you!
How does the training data cause overfitting?

I’ve seen you emphasize mathematical knowledge being important in data science/machine learning. Mike West emphasizes SQL and Python skills (the former especially) as being the most important. Where does this difference in opinion stem from?

If I am a beginner at machine learning and my current goal is publish a good paper within 6 month how should I start with considering I have no experience in publications and what ML topic I should pick in 2020?

What are the differences between the Bayesian and Frequentist methods within machine learning?

What is overfitting?

Why is the Gaussian distribution widely used in practice?

Are there any criteria to distinguish overfitting?

What are examples of Deep Learning overfitting?

What are the fundamental mathematical requirements for understanding machine learning, as a novice/hobbyist dev?

What is the Confusion Matrix in Machine Learning?- Simplest Explanation!

Is Julia’s syntax even more intuitive than Python’s?

Andrew Ng: What is the Future of Deep Reinforcement Learning (DL + RL)?

How is TensorFlow/Keras capable of computing seemingly non-smooth loss functions such as max?

Which language should I start to learn machine learning for the first time? Python, R, or Julia? And why?

How does image recognition work in MATLAB?

What is the future of TensorFlow?

What is the first thing you do when looking at a new data set?

How do I get data science, computer vision, and machine learning tutorial apps?
Try this one

Reinforcement learning (RL) is an area of machine learning concerned with how software agents ought to take actions in an environment in order to maximize the notion of cumulative reward. Reinforcement learning is one of three basic machine learning

Announcing our new Professional Machine Learning Engineer certification…

What is the best machine learning paper you have read in 2018?

Does every paper in machine learning introduce a new algorithm?

Predicting Credit Card Approvals using ML Techniques

What is an intuitive explanation for convolution?

Android Document Scanner with offline OCR application

What are the recommended data pre-processing methods for tree-based machine learning models?

What are some interesting statistics about the growing rate of the Julia programming language?

Is it possible to learn machine learning without prior knowledge in any coding language?

What skills does a data scientist need to learn in order to put machine learning models in production?
At a high level, these skills are a combination of software and data engineering.
The persons that are more appropriate to do this job are a data engineer and/or a machine learning engineer.
That being said, if you work at a startup or happen to be in a small company and need to put the models into production yourself, here are the top skills you need to get:
Well structured code: it doesn’t need to be perfect but at least can be understood and updated by other team members. Avoid spaghetti code[1] as the plague.
Add logs: if you are a Python user, the logging[2] module is your friend. Avoid print statements at any cost.
Model versioning: add a hash key to your different models. You will thank me later.
Metadata everywhere: save as much data about your models and ML experiments as you can (running time, hyperparameters, used features, CV scores, and so on). You will thank me later, again.
Monitor performances: execution time and statistical scores of your models.
Data and models management: store the necessary data and models somewhere that is available to everyone (S3[3] for example). Avoid uploading these to your VCS[4] system. Don’t share them using Slack or Drive. I won’t judge you though, I do it sometimes (read often). Read more here …..
What are some mistakes data scientists make when building machine learning models?
Some of the mistakes that might involve during building a machine learning model (I can think of) are listed here:
Not understanding the structure of the dataset
Not giving proper care during features selection
Leaving out categorical features and considering just numerical variables
Falling into dummy variable trap
Selection of inefficient machine learning algorithm
Not trying out various ML algorithms for building the model based on structure of data.
Improper tuning of model parameters
Most importantly: Building an idiotstic imperfect model i.e. suppose we have a classification problem with 99% chances of falling into class1 and remaining to class2. The built model may develop a mapping function which all the time for all data inputs, may predict the result to be class1. Well, one might say his/her model has 99% accuracy. But in reality the 1% class2 case hasn’t been included in the model. So this must be taken into consideration.
Read more here…
What is the difference between data analytics and data mining?
Basically, data mining is a key aspect of data analytics. Some even consider the former as essential to execute before the latter. While data analytics is the complete package and involves most components needed to examine a data set and extract valuable information, data mining focuses specifically on identifying hidden patterns.
That’s just the surface-level comparison though. The image above gives an overview of how the two differ.
One such difference is the presence of a hypothesis. Data analytics usually requires coming up with one, as it aims to find specific answers. Data mining, on the other hand, generally doesn’t need one to test or prove. The expected output are patterns or trends, which doesn’t require coming up with a statement or fact to test.
However, that doesn’t mean you mine data blindly. You still have a goal, whether it’s to come up with a recommender system or identify predictors of a certain dimension. Ultimately though, you strive to come up with data patterns or trends. For data analysis on the other hand, you’re expected to come up with valuable and actionable insights, usually in relation to a predetermined hypothesis. Read more here ….
What is the life cycle of a data science project?
The data science life cycle is not something well-defined like the software development life-cycle, and there is no ‘one-size-fits-all’ solution for data science projects. Every step in the life-cycle of a data science project depends on various data scientist skills and data science tools. The typical life-cycle of a data science project involves jumping back and forth among various interdependent science tasks using a variety of tools, techniques, programming, etc.
Thus, the data science life-cycle can include the following steps:
Business requirement understanding.
Data collection.
Data cleaning.
Data analysis.
Modeling.
Performance evaluation.
Communicating with stakeholders.
Deployment.
Real-world testing.
Business buy-in.
Support and maintenance.
Looks neat, but here is the scheme to visualize how it is happening in reality:
Agile development processes, especially continuous delivery lends itself well to the data science project life-cycle. The early comparison helps the data science team to change approaches, refine hypotheses and even discard the project if the business case is nonviable or the benefits from the predictive models are not worth the effort to build it.
Read more here….

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Machine Learning Latest News
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Top 10 Machine Learning Algorithms
What are the simplest examples of machine learning algorithms?
Originally Answered: What are the top algorithms for machine learning?
Source: Top 10 Machine Learning Algorithms for Data Scientist
In machine learning, there’s something called the “No Free Lunch” theorem. In a nutshell, it states that no one algorithm works best for every problem. It’s especially relevant for supervised learning. For example, you can’t say that neural networks are always better than decision trees or vice-versa. Furthermore, there are many factors at play, such as the size and structure of your dataset. As a result, you should try many different algorithms for your problem!
Top ML Algorithms
1. Linear Regression
Regression is a technique for numerical prediction. Additionally, regression is a statistical measure that attempts to determine the strength of the relationship between two variables. One is a dependent variable. Other is from a series of other changing variables which are our independent variables. Moreover, just like Classification is for predicting categorical labels, Regression is for predicting a continuous value. For example, we may wish to predict the salary of university graduates with 5 years of work experience. We use regression to determine how much specific factors or sectors influence the dependent variable.
Linear regression attempts to model the relationship between a scalar variable and explanatory variables by fitting a linear equation. For example, one might want to relate the weights of individuals to their heights using a linear regression model.
Additionally, this operator calculates a linear regression model. It uses the Akaike criterion for model selection. Furthermore, the Akaike information criterion is a measure of the relative goodness of a fit of a statistical model.
2. Logistic Regression
Logistic regression is a classification model. It uses input variables to predict a categorical outcome variable. The variable can take on one of a limited set of class values. A binomial logistic regression relates to two binary output categories. A multinomial logistic regression allows for more than two classes. Examples of logistic regression include classifying a binary condition as “healthy” / “not healthy”. Logistic regression applies the logistic sigmoid function to weighted input values to generate a prediction of the data class.
A logistic regression model estimates the probability of a dependent variable as a function of independent variables. The dependent variable is the output that we are trying to predict. The independent variables or explanatory variables are the factors that we feel could influence the output. Multiple regression refers to regression analysis with two or more independent variables. Multivariate regression, on the other hand, refers to regression analysis with two or more dependent variables.
3. Linear Discriminant Analysis
Logistic Regression is a classification algorithm traditionally for two-class classification problems. If you have more than two classes then the Linear Discriminant Analysis algorithm is the preferred linear classification technique.
The representation of LDA is pretty straight forward. It consists of statistical properties of your data, calculated for each class. For a single input variable this includes:
The mean value for each class.
The variance calculated across all classes.
We make predictions by calculating a discriminate value for each class. After that we make a prediction for the class with the largest value. The technique assumes that the data has a Gaussian distribution. Hence, it is a good idea to remove outliers from your data beforehand. It’s a simple and powerful method for classification predictive modelling problems.
4. Classification and Regression Trees
Prediction Trees are for predicting response or class YY from input X1, X2,…,XnX1,X2,…,Xn. If it is a continuous response it is a regression tree, if it is categorical, it is a classification tree. At each node of the tree, we check the value of one the input XiXi. Depending on the (binary) answer we continue to the left or to the right subbranch. When we reach a leaf we will find the prediction.
Contrary to linear or polynomial regression which are global models, trees try to partition the data space into small enough parts where we can apply a simple different model on each part. The non-leaf part of the tree is just the procedure to determine for each data xx what is the model we will use to classify it.
5. Naive Bayes
A Naive Bayes Classifier is a supervised machine-learning algorithm that uses the Bayes’ Theorem, which assumes that features are statistically independent. The theorem relies on the naive assumption that input variables are independent of each other, i.e. there is no way to know anything about other variables when given an additional variable. Regardless of this assumption, it has proven itself to be a classifier with good results.
Naive Bayes Classifiers rely on the Bayes’ Theorem, which is based on conditional probability or in simple terms, the likelihood that an event (A) will happen given that another event (B) has already happened. Essentially, the theorem allows a hypothesis to be updated each time new evidence is introduced. The equation below expresses Bayes’ Theorem in the language of probability:
Let’s explain what each of these terms means.
“P” is the symbol to denote probability.
P(A | B) = The probability of event A (hypothesis) occurring given that B (evidence) has occurred.
P(B | A) = The probability of the event B (evidence) occurring given that A (hypothesis) has occurred.
P(A) = The probability of event B (hypothesis) occurring.
P(B) = The probability of event A (evidence) occurring.
6. K-Nearest Neighbors
k-nearest neighbours (or k-NN for short) is a simple machine learning algorithm that categorizes an input by using its k nearest neighbours.
For example, suppose a k-NN algorithm has an input of data points of specific men and women’s weight and height, as plotted below. To determine the gender of an unknown input (green point), k-NN can look at the nearest k neighbours (suppose ) and will determine that the input’s gender is male. This method is a very simple and logical way of marking unknown inputs, with a high rate of success.
Also, we can k-NN in a variety of machine learning tasks; for example, in computer vision, k-NN can help identify handwritten letters and in gene expression analysis, the algorithm can determine which genes contribute to a certain characteristic. Overall, k-nearest neighbours provide a combination of simplicity and effectiveness that makes it an attractive algorithm to use for many machine learning tasks.
7. Learning Vector Quantization
A downside of K-Nearest Neighbors is that you need to hang on to your entire training dataset. The Learning Vector Quantization algorithm (or LVQ for short) is an artificial neural network algorithm that allows you to choose how many training instances to hang onto and learns exactly what those instances should look like.
Additionally, the representation for LVQ is a collection of codebook vectors. We select them randomly in the beginning and adapted to best summarize the training dataset over a number of iterations of the learning algorithm. After learned, the codebook vectors can make predictions just like K-Nearest Neighbors. Also, we find the most similar neighbour (best matching codebook vector) by calculating the distance between each codebook vector and the new data instance. The class value or (real value in the case of regression) for the best matching unit is then returned as the prediction. Moreover, you can get the best results if you rescale your data to have the same range, such as between 0 and 1.
If you discover that KNN gives good results on your dataset try using LVQ to reduce the memory requirements of storing the entire training dataset.
8. Bagging and Random Forest
A Random Forest consists of a collection or ensemble of simple tree predictors, each capable of producing a response when presented with a set of predictor values. For classification problems, this response takes the form of a class membership, which associates, or classifies, a set of independent predictor values with one of the categories present in the dependent variable. Alternatively, for regression problems, the tree response is an estimate of the dependent variable given the predictors.e
A Random Forest consists of an arbitrary number of simple trees, which determine the final outcome. For classification problems, the ensemble of simple trees votes for the most popular class. In the regression problem, we average responses to obtain an estimate of the dependent variable. Using tree ensembles can lead to significant improvement in prediction accuracy (i.e., better ability to predict new data cases).
9. SVM
A Support Vector Machine (SVM) is a supervised machine learning algorithm that can be employed for both classification and regression purposes. Also, SVMs have more common usage in classification problems and as such, this is what we will focus on in this post.
SVMs are based on the idea of finding a hyperplane that best divides a dataset into two classes, as shown in the image below.
Also, you can think of a hyperplane as a line that linearly separates and classifies a set of data.
Intuitively, the further from the hyperplane our data points lie, the more confident we are that they have been correctly classified. We, therefore, want our data points to be as far away from the hyperplane as possible, while still being on the correct side of it.
So when we add a new testing data , whatever side of the hyperplane it lands will decide the class that we assign to it.
The distance between the hyperplane and the nearest data point from either set is the margin. Furthermore, the goal is to choose a hyperplane with the greatest possible margin between the hyperplane and any point within the training set, giving a greater chance of correct classification of data.
But the data is rarely ever as clean as our simple example above. A dataset will often look more like the jumbled balls below which represent a linearly non-separable dataset.
10. Boosting and AdaBoost
Boosting is an ensemble technique that attempts to create a strong classifier from a number of weak classifiers. We do this by building a model from the training data, then creating a second model that attempts to correct the errors from the first model. We can add models until the training set is predicted perfectly or a maximum number of models are added.
AdaBoost was the first really successful boosting algorithm developed for binary classification. It is the best starting point for understanding boosting. Modern boosting methods build on AdaBoost, most notably stochastic gradient boosting machines.
AdaBoost is used with short decision trees. After the first tree is created, the performance of the tree on each training instance is used to weight how much attention the next tree that is created should pay attention to each training instance. Training data that is hard to predict is given more weight, whereas easy to predict instances are given less weight. Models are created sequentially one after the other, each updating the weights on the training instances that affect the learning performed by the next tree in the sequence. After all the trees are built, predictions are made for new data, and the performance of each tree is weighted by how accurate it was on training data.
Because so much attention is put on correcting mistakes by the algorithm it is important that you have clean data with outliers removed.
Summary
A typical question asked by a beginner, when facing a wide variety of machine learning algorithms, is “which algorithm should I use?” The answer to the question varies depending on many factors, including: (1) The size, quality, and nature of data; (2) The available computational time; (3) The urgency of the task; and (4) What you want to do with the data.
Even an experienced data scientist cannot tell which algorithm will perform the best before trying different algorithms. Although there are many other Machine Learning algorithms, these are the most popular ones. If you’re a newbie to Machine Learning, these would be a good starting point to learn.
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What are the basic elements of a machine learning algorithm?
The foundations of most algorithms lie in linear algebra, multivariable calculus, and optimization methods. Most algorithms use a sequence of combinations to estimate an objective function given a set of data, and the sequence order and included methods distinguish one algorithm from another. It’s helpful to learn enough math to read the development papers associated with key algorithms in the field, as many other methods (or one’s own innovations) include pieces of those algorithms. It’s like learning the language of machine learning. Once you are fluent in it, it’s pretty easy to modify algorithms as needed and create new ones likely to improve on a problem in a short period of time.
What is your favorite machine learning algorithm?
Matrix factorization: a simple, beautiful way to do dimensionality reduction —and dimensionality reduction is the essence of cognition. Recommender systems would be a big application of matrix factorization. Another application I’ve been using over the years (starting in 2010 with video data) is factorizing a matrix of pairwise mutual information (or pointwise mutual information, which is more common) between features, which can be used for feature extraction, computing word embeddings, computing label embeddings (that was the topic of a recent paper of mine [1]), etc.
Used in a convolutional settings, this acts as an excellent unsupervised feature extractor for images and videos. There’s one big issue though: it is fundamentally a shallow algorithm. Deep neural networks will quickly outperform it if any kind of supervision labels are available.
[1] [1607.05691] Information-theoretical label embeddings for large-scale image classification
Machine Learning Demos:
1- TensorFlow Demos
LipSync by YouTube
See how well you synchronize to the lyrics of the popular hit “Dance Monkey.” This in-browser experience uses the Facemesh model for estimating key points around the lips to score lip-syncing accuracy.Explore demo  View code
Emoji Scavenger Hunt
Use your phone’s camera to identify emojis in the real world. Can you find all the emojis before time expires?Explore demo  View code
Webcam Controller
Play Pac-Man using images trained in your browser.Explore demo  View code
Teachable Machine
No coding required! Teach a machine to recognize images and play sounds.Explore demo  View code
Move Mirror
Explore pictures in a fun new way, just by moving around.Explore demo  View code
Performance RNN
Enjoy a real-time piano performance by a neural network.Explore demo  View code
Node.js Pitch Prediction
Train a server-side model to classify baseball pitch types using Node.js.View code
Visualize Model Training
See how to visualize in-browser training and model behaviour and training using tfjs-vis.Explore demo  View code
Community demos
Get started with official templates and explore top picks from the community for inspiration.Glitch
Check out community Glitches and make your own TensorFlow.js-powered projects.Explore Glitch  Codepen
Fork boilerplate templates and check out working examples from the community.Explore CodePen  GitHub Community Projects
See what the community has created and submitted to the TensorFlow.js gallery page.Explore GitHub
https://cdpn.io/jasonmayes/fullcpgrid/QWbNeJdOpen in Editor
Real time body segmentation using TensorFlow.js
Load in a pre-trained Body-Pix model from the TensorFlow.js team so that you can locate all pixels in an image that are part of a body, and what part of the body they belong to. Clone this to make your own TensorFlow.js powered projects to recognize body parts in images from your webcam and more!
New Pen from Templatehttps://cdpn.io/jasonmayes/fullcpgrid/qBEJxggOpen in Editor
Multiple object detection using pre trained model in TensorFlow.js
This demo shows how we can use a pre made machine learning solution to recognize objects (yes, more than one at a time!) on any image you wish to present to it. Even better, not only do we know that the image contains an object, but we can also get the co-ordinates of the bounding box for each object it finds, which allows you to highlight the found object in the image.
For this demo we are loading a model using the ImageNet-SSD architecture, to recognize 90 common objects it has already been taught to find from the COCO dataset.
If what you want to recognize is in that list of things it knows about (for example a cat, dog, etc), this may be useful to you as is in your own projects, or just to experiment with Machine Learning in the browser and get familiar with the possibilities of machine learning.
If you are feeling particularly confident you can check out our GitHub documentation (https://github.com/tensorflow/tfjs-models/tree/master/coco-ssd) which goes into much more detail for customizing various parameters to tailor performance to your needs.
New Pen from Templatehttps://cdpn.io/jasonmayes/fullcpgrid/JjompwwOpen in Editor
Classifying images using a pre trained model in TensorFlow.js
This demo shows how we can use a pre made machine learning solution to classify images (aka a binary image classifier). It should be noted that this model works best when a single item is in the image at a time. Busy images may not work so well. You may want to try our demo for Multiple Object Detection (https://codepen.io/jasonmayes/pen/qBEJxgg) for that.
For this demo we are loading a model using the MobileNet architecture, to recognize 1000 common objects it has already been taught to find from the ImageNet data set (http://image-net.org/).
If what you want to recognize is in that list of things it knows about (for example a cat, dog, etc), this may be useful to you as is in your own projects, or just to experiment with Machine Learning in the browser and get familiar with the possibilities of machine learning.
Please note: This demo loads an easy to use JavaScript class made by the TensorFlow.js team to do the hardwork for you so no machine learning knowledge is needed to use it.
If you were looking to learn how to load in a TensorFlow.js saved model directly yourself then please see our tutorial on loading TensorFlow.js models directly.
If you want to train a system to recognize your own objects, using your own data, then check out our tutorials on “transfer learning”.
New Pen from Template Open in Editor
Tensorflow.js Boilerplate
The hello world for TensorFlow.js 🙂 Absolute minimum needed to import into your website and simply prints the loaded TensorFlow.js version. From here we can do great things. Clone this to make your own TensorFlow.js powered projects or if you are following a tutorial that needs TensorFlow.js to work.
New Pen from Template
Examples
tfjs-examples provides small code examples that implement various ML tasks using TensorFlow.js.MNIST Digit Recognizer
Train a model to recognize handwritten digits from the MNIST database.Explore example  View code  Addition RNN
Train a model to learn addition from text examples.Explore example  View code
TensorFlow.js Layers: Iris Demo
More TensorFlow examples
Top-paying Cloud certifications:
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Complete overview of machine learning concepts seen in 27 data science and machine learning interviews:
Supervised Learning
Linear Regression
Logistic Regression
Naive Bayes
Support Vector Machines
Decision Trees
K-Nearest Neighbors
Test your knowledge
Machine Learning in Practice
Bias-Variance Tradeoff
How to Select a Model
How to Select Features
Regularizing Your Model
Ensembling: How to Combine Your Models
Evaluation Metrics
Unsupervised Learning
Market Basket Analysis
K-Means Clustering
Principal Components Analysis
Deep Learning
Feedforward Neural Networks
Grab Bag of Neural Network Practices
Convolutional Neural Networks
Recurrent Neural Networks
Test Your Knowledge
Feature Extraction
Best Subset Features Feature
Selection Examples
Adding Features Example
Activation Practice I
Activation Practice II
Activation Practice III
Weight Initialization
Batch vs. Stochastic
Recurrent Network Advantages
Alternatives Recurrent Units

Convolutional Application
Convolutional Layer Advantages
Are you interested in becoming an AWS Certified Machine Learning Specialist? If so, then this exam preparation blog is for you! The blog contains over 100 quiz and practice exam questions, as well as detailed answers. The questions are very similar to those you will encounter on the actual exam, so this is a great way to prepare. In addition, the blog also includes cheat sheets and illustrations to help you understand the concepts better.
Bring your own algorithm to an MLOps Pipeline: Architecture
AWS Certified machine Learning Specialty Exam Prep MLS-C01
Code and Serve Your ML Model with AWS CodeBuild
What are some ways we can use machine learning and artificial intelligence for algorithmic trading in the stock market?
How do we know that the Top 3 Voice Recognition Devices like Siri Alexa and Ok Google are not spying on us?
What are some good datasets for Data Science and Machine Learning?
Machine Learning Engineer Interview Questions and Answers

[P] Adaptive load balancing in Go for LLM traffic - harder than expected
by /u/dinkinflika0 (Machine Learning) on January 15, 2026 at 6:58 pm
I am an open source contributor, working on load balancing for Bifrost (LLM gateway) and ran into some interesting challenges with Go implementation. Standard weighted round-robin works fine for static loads, but LLM providers behave weirdly. OpenAI might be fast at 9am, slow at 2pm. Azure rate limits kick in unexpectedly. One region degrades while others stay healthy. Built adaptive routing that adjusts weights based on live metrics - latency, error rates, throughput. Used EWMAs (exponentially weighted moving averages) to smooth out spikes without overreacting to noise. The Go part that was tricky: tracking per-provider metrics without locks becoming a bottleneck at high RPS. Ended up using atomic operations for counters and a separate goroutine that periodically reads metrics and recalculates weights. Keeps the hot path lock-free. Also had to handle provider health scoring. Not just "up or down" but scoring based on recent performance. A provider recovering from issues should gradually earn traffic back, not get slammed immediately. Connection pooling matters more than expected. Go's http.Transport reuses connections well, but tuning MaxIdleConnsPerHost made a noticeable difference under sustained load. Running this at 5K RPS with sub-microsecond overhead now. The concurrency primitives in Go made this way easier than Python would've been. Anyone else built adaptive routing in Go? What patterns worked for you? submitted by /u/dinkinflika0 [link] [comments]
LLM for document search
by /u/Few-Strawberry2764 (Data Science) on January 15, 2026 at 6:35 pm
My boss wants to have an LLM in house for document searches. I've convinced him that we'll only use it for identifying relevant documents due to the risk of hallucinations, and not perform calculations and the like. So for example, finding all PDF files related to customer X, product Y between 2023-2025. Because of legal concerns it'll have to be hosted locally and air gapped. I've only used Gemini. Does anyone have experience or suggestions about picking a vendor for this type of application? I'm familiar with CNNs but have zero interest in building or training a LLM myself. submitted by /u/Few-Strawberry2764 [link] [comments]
Spent few days on case study only to get ghosted. Is it the market or just bad employer?
by /u/Lamp_Shade_Head (Data Science) on January 15, 2026 at 5:33 pm
I spent a few days working on a case study for a company and they completely ghosted me after I submitted it. It’s incredibly frustrating because I could have used that time for something more productive. With how bad the job market is, it feels like there’s no real choice but to go along with these ridiculous interview processes. The funniest part is that I didn’t even apply for the role. They reached out to me on LinkedIn. I’ve decided that from now on I’m not doing case studies as part of interviews. Do any of you say no to case studies too? submitted by /u/Lamp_Shade_Head [link] [comments]
[R] statistical learning in machine learning vs cognitive sciences
by /u/Ok_Fudge1993 (Machine Learning) on January 15, 2026 at 3:22 pm
Hi everyone! Please bear with me with this question 🫣 I’m looking for someone in research to pick their brain about the similarities and differences between statistical learning in cognitive science and in machine learning, so definition, conceptual differences/similarities, predictions, testing…. Hope it makes sense, I’m doing research in cognitive sciences and I’d love to learn more about this term’s use in ML for a review I’m working on 🙂 thanks! submitted by /u/Ok_Fudge1993 [link] [comments]
[D] New arXiv review: "High-Performance Serverless" is the future of AI Inference (and Static Clusters are dying)
by /u/pmv143 (Machine Learning) on January 15, 2026 at 3:20 pm
Just read through this new systematic review (arXiv:2601.09334) on Serverless for HPC/AI. It’s a solid read if you're dealing with infrastructure scaling. The TL;DR: Static Allocation is breaking: The paper argues that rigid GPU clusters can't handle modern "bursty" AI workloads efficiently. You either over-provision (waste money) or under-provision (crash during spikes). Serverless is the fix: The industry is moving toward elastic, serverless execution models to survive the efficiency gap. We've been seeing this exact pattern in production. We actually built our engine specifically to solve that Cold Start problem via state snapshotting, so it's validating to see the academic side converging on the same architecture. Paper link: https://arxiv.org/abs/2601.09334 Anyone seeing this shift from static -> serverless in their own clusters? submitted by /u/pmv143 [link] [comments]
ISBI 2026: Results Out [D]
by /u/ade17_in (Machine Learning) on January 15, 2026 at 7:02 am
Results out for ISBI 2026 - London a few days back. Just want to check with fellow medical imaging peeps on how did it go for all. Results were delayed by a month and I see a pretty high acceptance rate this time. submitted by /u/ade17_in [link] [comments]
SQL performance training question
by /u/idan_huji (Data Science) on January 15, 2026 at 6:26 am
submitted by /u/idan_huji [link] [comments]
Google DS interview
by /u/No-Mud4063 (Data Science) on January 15, 2026 at 2:34 am
Have a Google Sr. DS interview coming up in a month. Has anyone taken it? tips? submitted by /u/No-Mud4063 [link] [comments]
Nvidia: End-to-End Test-Time Training for Long Context aka Being Able To Update A Model's Weights In Real-Time As You Use It | "TTT changes the paradigm from retrieving info to learning it on the fly...the TTT model treats the context window as a dataset & trains itself on it in real-time." [R]
by /u/44th--Hokage (Machine Learning) on January 15, 2026 at 1:43 am
TL;DR: The paper describes a mechanism that essentially turns the context window into a training dataset for a "fast weight" update loop: Inner Loop: The model runs a mini-gradient descent on the context during inference. It updates specific MLP layers to "learn" the current context. Outer Loop: The model's initial weights are meta-learned during training to be "highly updateable" or optimized for this test-time adaptation From the Paper: "Overall, our empirical observations strongly indicate that TTT-E2E should produce the same trend as full attention for scaling with training compute in large-budget production runs." Abstract: We formulate long-context language modeling as a problem in continual learning rather than architecture design. Under this formulation, we only use a standard architecture a Transformer with sliding-window attention. However, our model continues learning at test time via next-token prediction on the given context, compressing the context it reads into its weights. In addition, we improve the model's initialization for learning at test time via meta-learning at training time. Overall, our method, a form of Test-Time Training (TTT), is End-to-End (E2E) both at test time (via next-token prediction) and training time (via meta-learning), in contrast to previous forms. We conduct extensive experiments with a focus on scaling properties. In particular, for 3B models trained with 164B tokens, our method (TTT-E2E) scales with context length in the same way as Transformer with full attention, while others, such as Mamba 2 and Gated DeltaNet, do not. However, similar to RNNs, TTT-E2E has constant inference latency regardless of context length, making it 2.7x faster than full attention for 128K context. Our code is publicly available. Layman's Explanation: Think of this paper as solving the memory bottleneck by fundamentally changing how a model processes information. Imagine you are taking a massive open-book exam. A standard Transformer (like GPT-4) is the student who frantically re-reads every single page of the textbook before answering every single question. This strategy guarantees they find the specific details (perfect recall), but as the textbook gets thicker, they get exponentially slower until they simply cannot finish the test in time. On the other hand, alternatives like RNNs or Mamba try to summarize the entire textbook onto a single index card. They can answer questions instantly because they don't have to look back at the book, but for long, complex subjects, they eventually run out of space on the card and start forgetting crucial information. This new method, Test-Time Training (TTT), changes the paradigm from retrieving information to learning it on the fly. Instead of re-reading the book or summarizing it onto a card, the TTT model treats the context window as a dataset and actually trains itself on it in real-time. It performs a mini-gradient descent update on its own neural weights as it reads. This is equivalent to a student who reads the textbook and physically rewires their brain to master the subject matter before the test. Because the information is now compressed into the model's actual intelligence (its weights) rather than a temporary cache, the model can answer questions instantly (matching the constant speed of the fast index-card models) but with the high accuracy and scaling capability of the slow, page-turning Transformers. This effectively decouples intelligence from memory costs, allowing for massive context lengths without the usual slowdown. Link to the Paper: https://arxiv.org/pdf/2512.23675 Link to the Open-Sourced Official Implementation of End-to-End Test Time Training for Long Context: https://github.com/test-time-training/e2e submitted by /u/44th--Hokage [link] [comments]
Does anyone know how hard it is to work with the All of Us database?
by /u/phymathnerd (Data Science) on January 15, 2026 at 12:04 am
I have limited python proficiency but I can code well with R. I want to design a project that’ll require me to collect patient data from the All of Us database. Does this sound like an unrealistic plan with my limited python proficiency? submitted by /u/phymathnerd [link] [comments]
[P] Provider outages are more common than you'd think - here's how we handle them
by /u/dinkinflika0 (Machine Learning) on January 14, 2026 at 9:04 pm
I Work on Bifrost (been posting a lot here lol) and wanted to share what we learned building multi-provider routing, since it's messier than it seems. Github: https://github.com/maximhq/bifrost Initially thought weighted routing would be the main thing - like send 80% of traffic to Azure, 20% to OpenAI. Pretty straightforward. Configure weights, distribute requests proportionally, done. But production is messier. Providers go down regionally. Rate limits hit unexpectedly. Azure might be healthy in US-East but degraded in EU-West. Or you hit your tier limit mid-day and everything starts timing out. So we built automatic fallback chains. When you configure multiple providers on a virtual key, Bifrost sorts them by weight and creates fallbacks automatically. Primary request goes to Azure, fails, immediately retries with OpenAI. Happens transparently - your app doesn't see it. The health monitoring part was interesting. We track success rates, response times, error patterns per provider. When issues get detected, requests start routing to backup providers within milliseconds. No manual intervention needed. Also handles rate limits differently now. If a provider hits TPM/RPM limits, it gets excluded from routing temporarily while other providers stay available. Prevents cascading failures. One thing that surprised us - weighted routing alone isn't enough. You need adaptive load balancing that actually looks at real-time metrics (latency, error rates, throughput) and adjusts on the fly. Static weights don't account for degradation. The tricky part was making failover fast enough that it doesn't add noticeable latency. Had to optimize connection pooling, timeout handling, and how we track provider health. how are you folks handling multi-provider routing in production. Static configs? Manual switching? Something else? submitted by /u/dinkinflika0 [link] [comments]
Spine surgery has massive decision variability. Retrospective ML won’t fix it. Curious if a workflow-native, outcome-driven approach could. [D]
by /u/LaniakeaResident (Machine Learning) on January 14, 2026 at 8:25 pm
Hi everyone I’m a fellowship-trained neurosurgeon / spine surgeon. I’ve been discussing a persistent problem in our field with other surgeons for a while, and I wanted to run it by people who think about ML systems, not just model performance. I’m trying to pressure-test whether a particular approach is even technically sound, where it would break, and what I’m likely underestimating. Id love to find an interested person to have a discussion with to get a 10000 feet level understanding of the scope of what I am trying to accomplish. The clinical problem: For the same spine pathology and very similar patient presentations, you can see multiple reputable surgeons and get very different surgical recommendations. anything from continued conservative management to decompression, short fusion, or long multilevel constructs. Costs and outcomes vary widely. This isn’t because surgeons are careless. It’s because spine surgery operates with: Limited prospective evidence Inconsistent documentation Weak outcome feedback loops Retrospective datasets that are biased, incomplete, and poorly labeled EMRs are essentially digital paper charts. PACS is built for viewing images, not capturing decision intent. Surgical reasoning is visual, spatial, and 3D, yet we reduce it to free-text notes after the fact. From a data perspective, the learning signal is pretty broken. Why I’m skeptical that training on existing data works: “Labels” are often inferred indirectly (billing codes, op notes) Surgeon decision policies are non-stationary Available datasets are institution-specific and access-restricted Selection bias is extreme (who gets surgery vs who doesn’t is itself a learned policy) Outcomes are delayed, noisy, and confounded Even with access, I’m not convinced retrospective supervision converges to something clinically useful. The idea I’m exploring: Instead of trying to clean bad data later, what if the workflow itself generated structured, high-fidelity labels as a byproduct of doing the work, or at least the majority of it? Concretely, I’m imagining an EMR-adjacent, spine-specific surgical planning and case monitoring environment that surgeons would actually want to use. Not another PACS viewer, but a system that allows: 3D reconstruction from pre-op imaging Automated calculation of alignment parameters Explicit marking of anatomic features tied to symptoms Surgical plan modeling (levels, implants, trajectories, correction goals) Structured logging of surgical cases (to derive patterns and analyze for trends) Enable productivity (generate note, auto populate plans ect.) Enable standardized automated patient outcomes data collection. The key point isn’t the UI, but UI is also an area that currently suffers. It’s that surgeons would be forced (in a useful way) to externalize decision intent in a structured format because it directly helps them plan cases and generate documentation. Labeling wouldn’t feel like labeling it would almost just be how you work. The data used for learning would explicitly include post-operative outcomes. PROMs collected at standardized intervals, complications (SSI, reoperation), operative time, etc, with automated follow-up built into the system. The goal would not be to replicate surgeon decisions, but to learn decision patterns that are associated with better outcomes. Surgeons could specify what they want to optimize for a given patient (eg pain relief vs complication risk vs durability), and the system would generate predictions conditioned on those objectives. Over time, this would generate: Surgeon-specific decision + outcome datasets Aggregate cross-surgeon data Explicit representations of surgical choices, not just endpoints Learning systems could then train on: Individual surgeon decision–outcome mappings Population-level patterns Areas of divergence where similar cases lead to different choices and outcomes Where I’m unsure, and why I’m posting here: From an ML perspective, I’m trying to understand: Given delayed, noisy outcomes, is this best framed as supervised prediction or closer to learning decision policies under uncertainty? How feasible is it to attribute outcome differences to surgical decisions rather than execution, environment, or case selection? Does it make sense to learn surgeon-specific decision–outcome mappings before attempting cross-surgeon generalization? How would you prevent optimizing for measurable metrics (PROMs, SSI, etc) at the expense of unmeasured but important patient outcomes? Which outcome signals are realistically usable for learning, and which are too delayed or confounded? What failure modes jump out immediately? I’m also trying to get a realistic sense of: The data engineering complexity this implies Rough scale of compute once models actually exist The kind of team required to even attempt this (beyond just training models) I know there are a lot of missing details. If anyone here has worked on complex ML systems tightly coupled to real-world workflows (medical imaging, decision support, etc) and finds this interesting, I’d love to continue the discussion privately or over Zoom. Maybe we can collaborate on some level! Appreciate any critique especially the uncomfortable kind!! submitted by /u/LaniakeaResident [link] [comments]
[D] Peer matrix evaluation: 10 frontier models judge each other's responses to eliminate single-evaluator bias. Results from async debugging and probability reasoning tasks.
by /u/Silver_Raspberry_811 (Machine Learning) on January 14, 2026 at 8:10 pm
Methodology: 10 frontier models (Claude Opus/Sonnet 4.5, o1, GPT-4o, Gemini 3 Pro, Grok 4, DeepSeek V3.2, Llama 4 Scout, Mistral Large, Command A) Each answers identical prompt blindly All 10 judge all 10 responses (100 judgments) Self-judgments excluded from final scores 5 criteria: Correctness (30%), Completeness (20%), Clarity (20%), Depth (15%), Usefulness (15%) CODE-001 Results (Async Python Debugging): Claude Opus 4.5: 9.49 o1: 9.48 Claude Sonnet 4.5: 9.41 DeepSeek V3.2: 9.39 Grok 4: 9.37 Command A: 9.23 Gemini 3 Pro: 9.19 Mistral Large: 9.10 GPT-4o: 8.79 Llama 4 Scout: 8.04 REASON-001 Results (Two Envelope Paradox): Claude Opus 4.5: 9.24 o1: 9.23 Claude Sonnet 4.5: 9.09 DeepSeek V3.2: 8.93 Grok 4: 8.88 GPT-4o: 8.75 Gemini 3 Pro: 8.68 Mistral Large: 8.64 Command A: 8.38 Llama 4 Scout: 7.92 Judge Bias Patterns: Strictest: Claude Opus (avg 7.10-8.76 depending on task) Most lenient: Mistral Large (9.22-9.73) Correlation: Strict judges tend to score higher themselves Open questions for feedback: Is 5-point rubric weighting optimal for different task types? Should we normalize for judge harshness before aggregating? Are 9 judgments per response sufficient for statistical validity? Full data + prompts: https://themultivac.substack.com Daily evals at themultivac.com — currently in Phase 2 (peer matrix format). submitted by /u/Silver_Raspberry_811 [link] [comments]
[P] my shot at a DeepSeek style moe on a single rtx 5090
by /u/exhorder72 (Machine Learning) on January 14, 2026 at 7:53 pm
I know most will wonder why I’m wasting my time training at only 19k tok a sec. It’s because I can. I’m doing this in my living room in my spare time. 0 formal ML experience. The absurd amount I’ve learned in the last few months made me realize I really picked the wrong career. My Mixture of Experts is 2.36B parameter with 8 routed experts plus a shared expert using top-2 routing. Attention is Grouped Query Attention with QK-normalization and RoPE positional embeddings. All feed-forward layers use SwiGLU activation with RMSNorm throughout. Load balancing follows DeepSeek V3’s auxiliary-loss-free approach using bias-based routing. I monitor coefficient of variation and maximum violation per step. Training runs on TorchAO FP8 quantization with the Muon optimizer and a multi-stage learning rate schedule (warmup, constant, cosine decay). The backend is optimized for Blackwell architecture with cuBLASLt. The data pipeline implements MeCo (Metadata Conditioning then Cooldown) with ledger-based deterministic sampling. I have document-aware attention masking and cross-document loss masking but was disabled for the initial MeCo run. I have since disabled MeCo and curated a clean corpus with no tagging of any kind. MeCo worked but it worked too well and with only 8 experts, it became very problematic. My two biggest early mistakes were not using symmetric router initialization (std=0.006) and not having a dense first layer. Cost me a lot of time and sleep. So what did I do? I cheated. I used aux loss of .003 snd ema smoothing at the beginning. I just didn’t know better. I paid a price later on for that. DO NOT use router scaling on a small MoE. DeepSeek used 2.5. Kimi K2 used 2.446. I tried 1.2 and it was horribly unstable and violation blew up to over .500. 24 batch 6 Grad LR 3e-4 AdamW+Muon Scaled. Bias .001 Aux .0001. I update every step. As of yesterday: 2026-01-13 20:53:06 step 41915 | lr 3.00e-04 | loss 1.8867 | gnorm 0.13 | 19,415 tok/s (ema 19,553) | 75.9s/5 steps | cv 0.022 | bias -0.001708±0.179996 | rel_max=0.036 maxvio=0.027 ent=1.203 applied=True | seq_aux 2.444 2026-01-13 20:54:20 [moe] token counts: [150018, 148422, 155402, 147966, 145236, 146724, 144358, 141522] 2026-01-13 20:54:20 step 41920 | lr 3.00e-04 | loss 1.9263 | gnorm 0.13 | 20,102 tok/s (ema 19,828) | 73.4s/5 steps | cv 0.026 | bias -0.001708±0.179920 | rel_max=0.054 maxvio=0.054 ent=1.211 applied=True | seq_aux 2.515 I got a long ways to go 🙂 I’ll gladly answer any question. No gate keeping here. submitted by /u/exhorder72 [link] [comments]
[R] Controlled LLM Training on Spectral Sphere
by /u/StartledWatermelon (Machine Learning) on January 14, 2026 at 3:23 pm
TL;DR: The paper introduces Spectral Sphere Optimizer, which takes steepest descent under spectral norm (Muon) and forces the weights & updates onto a spectral sphere. Paper: https://www.arxiv.org/pdf/2601.08393 Repo: https://github.com/Unakar/Spectral-Sphere-Optimizer Abstract: Scaling large models requires optimization strategies that ensure rapid convergence grounded in stability. Maximal Update Parametrization ( muP) provides a theoretical safeguard for width-invariant theta(1) activation control, whereas emerging optimizers like Muon are only ``half-aligned'' with these constraints: they control updates but allow weights to drift. To address this limitation, we introduce the Spectral Sphere Optimizer (SSO), which enforces strict module-wise spectral constraints on both weights and their updates. By deriving the steepest descent direction on the spectral sphere, SSO realizes a fully muP-aligned optimization process. To enable large-scale training, we implement SSO as an efficient parallel algorithm within Megatron. Through extensive pretraining on diverse architectures, including Dense 1.7B, MoE 8B-A1B, and 200-layer DeepNet models, SSO consistently outperforms AdamW and Muon. Furthermore, we observe significant practical stability benefits, including improved MoE router load balancing, suppressed outliers, and strictly bounded activations. Algorithm: https://preview.redd.it/f1bvi7yd1cdg1.png?width=1197&format=png&auto=webp&s=88a15a375316f54b092e8101e492a2574dc2ace1 Evals: https://preview.redd.it/5hefuy7g1cdg1.png?width=1503&format=png&auto=webp&s=8a0864c5279654a1c9a29b7aae57d2a1b160aa4d https://preview.redd.it/0sy8ih8h1cdg1.png?width=1517&format=png&auto=webp&s=ffd675a60192908ed95652b89540cce8d2110088 https://preview.redd.it/rz6bhc6i1cdg1.png?width=1585&format=png&auto=webp&s=50cd471c7805517d0279877fee235dea3e42954e https://preview.redd.it/fu5wd7zi1cdg1.png?width=1524&format=png&auto=webp&s=5bfb7668a76ceefa320d7325b6abdb731d985e45 submitted by /u/StartledWatermelon [link] [comments]
Modeling exercise for triplets
by /u/idan_huji (Data Science) on January 14, 2026 at 3:18 pm
submitted by /u/idan_huji [link] [comments]
How far should I go with LeetCode topics for coding interviews?
by /u/Lamp_Shade_Head (Data Science) on January 14, 2026 at 2:49 pm
I recently started doing LeetCode to prep for coding interviews. So far I’ve mostly been focusing on arrays, hash maps, strings, and patterns like two pointers, sliding window, and binary search. Should I move on to other topics like stacks, queues, and trees, or is this enough for now? submitted by /u/Lamp_Shade_Head [link] [comments]
[D] CUDA Workstation vs Apple Silicon for ML / LLMs
by /u/Individual-School-07 (Machine Learning) on January 14, 2026 at 1:22 pm
Hi everyone, I’m trying to make a deliberate choice between two paths for machine learning and AI development, and I’d really value input from people who’ve used both CUDA GPUs and Apple Silicon. Context I already own a MacBook Pro M1, which I use daily for coding and general work. I’m now considering adding a local CUDA workstation mainly for: Local LLM inference (30B–70B models) Real-time AI projects (LLM + TTS + RVC) Unreal Engine 5 + AI-driven characters ML experimentation and systems-level learning I’m also thinking long-term about portfolio quality and employability (FAANG / ML infra / quant-style roles). Option A — Apple Silicon–first Stick with the M1 MacBook Pro Use Metal / MPS where possible Offload heavy jobs to cloud GPUs (AWS, etc.) Pros I see: efficiency, quiet, great dev experience Concerns: lack of CUDA, tooling gaps, transferability to industry infra Option B — Local CUDA workstation Used build (~£1,270 / ~$1,700): RTX 3090 (24GB) i5-13600K 32GB DDR4 (upgradeable) Pros I see: CUDA ecosystem, local latency, hands-on GPU systems work Concerns: power, noise, cost, maintenance What I’d love feedback on For local LLMs and real-time pipelines, how limiting is Apple Silicon today vs CUDA? For those who’ve used both, where did Apple Silicon shine — and where did it fall short? From a portfolio / hiring perspective, does CUDA experience meaningfully matter in practice? Is a local 3090 still a solid learning platform in 2025, or is cloud-first the smarter move? Is the build I found a good deal ? I’m not anti-Mac (I use one daily), but I want to be realistic about what builds strong, credible ML experience. Thanks in advance — especially interested in responses from people who’ve run real workloads on both platforms. submitted by /u/Individual-School-07 [link] [comments]
[D] Classification of low resource language using Deep learning
by /u/Sikandarch (Machine Learning) on January 14, 2026 at 6:54 am
I have been trying to solve classification problem on a low resource language. I am doing comparative analysis, LinearSVC and Logistic regression performed the best and the only models with 80+ accuracy and no overfitting. I have to classify it using deep learning model as well. I applied BERT on the dataset, model is 'bert-base-multilingual-cased', and I am fine tuning it, but issue is overfitting. Training logs: Epoch 6/10 | Train Loss: 0.4135 | Train Acc: 0.8772 | Val Loss: 0.9208 | Val Acc: 0.7408 Epoch 7/10 | Train Loss: 0.2984 | Train Acc: 0.9129 | Val Loss: 0.8313 | Val Acc: 0.7530 Epoch 8/10 | Train Loss: 0.2207 | Train Acc: 0.9388 | Val Loss: 0.8720 | Val Acc: 0.7505 this was with default dropout of the model, when I change dropout to 0.3, or even 0.2, model still overfits but not this much, but with dropout I don't go near 60% accuracy, long training introduces overfitting, early stopping isn't working as val loss continuous to decrease. On 10 epoch, I trained patience of 2 and 3. It doesn't stops. To prevent this I am not doing warmup step, my optimizer is below: optimizer = AdamW([ {'params': model.bert.parameters(), 'lr': 2e-5}, {'params': model.classifier.parameters(), 'lr': 3e-5} ], weight_decay=0.01) About my dataset, I have 9000 training samples and 11 classes to train, data is imbalanced but not drastically, to cater this I have added class weights to loss function. 17 words per training sample on average. I set the max_length to 120 for tokens ids and attention masks. How can I improve my training, I am trying to achieve atleast 75% accuracy without overfitting, for my comparative analysis. What I am doing wrong? Please guide me. Data Augmentation didn't work too. I did easy data augmentation. Mixup Augmentation also didn't work. If you need more information about my training to answer questions, ask in the comment, thanks. submitted by /u/Sikandarch [link] [comments]
[R] My team and I have created a system that autonomously creates pufferlib envs. Looking for a compute sponsor
by /u/cobalt1137 (Machine Learning) on January 14, 2026 at 6:40 am
Hey hey. Like the title says, we are currently building some pretty weird and ambitious systems (think hive-mind/swarm-like collective) and we are growing these to be able to create great RL environments. And we are starting with pufferlib envs. It is doing a pretty damn good job atm. We are currently bootstrapped and we are limited on compute. Even a small batch of gpus (of decent size chips) would be pretty great. If you have any extra gpus laying around, or would potentially want to sponsor us, would love to chat. I am open to any questions in the thread as well. I'm also down to do a decent amount of discovery (need nda ideally). submitted by /u/cobalt1137 [link] [comments]

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HHS quickly reverses $2 billion in mental health and substance abuse cuts after pushback
by /u/progress18 on January 15, 2026 at 6:19 pm
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HHS quickly reverses $2 billion in mental health and substance abuse cuts after pushback
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Trump’s ‘Great Healthcare Plan’ Aims to Lower Drug Prices and Insurance Premiums
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Bodybuilder Known for Using Oil and Alcohol Injections to Achieve ‘Popeye’ Biceps Dies at 55 after Renal Failure
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Rx Inspector: ProPublica’s New Tool Provides Drug Info the FDA Won’t
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Age-specific DNA methylation alterations in sperm at imprint control regions may contribute to the risk of autism spectrum disorder in offspring
by /u/AgingUS on January 15, 2026 at 7:10 pm
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Slow grower: Tyrannosaurus rex didn’t reach full size until age 40, « Famed dino likely spent much of its life competing for food against smaller predators. »
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Nature Communications study finds group membership biases young children’s evaluation of evidence
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MIND diet may protect the brain by slowing biological aging. Study found that the MIND diet is particularly effective at lowering the risk of conditions such as dementia, stroke, depression, and anxiety.
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Clinical Trial: Cannabis Topicals Mitigate Pain, Improve Physical Functioning in Breast Cancer Patients
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Retired LHP Clayton Kershaw to pitch for Team USA at WBC
by /u/Oldtimer_2 on January 15, 2026 at 7:24 pm
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Report: Warriors' forward Jonathan Kuminga demands trade
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College basketball players among those charged in point-shaving scheme by FBI
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Norway coaches banned in ski jumping suit scandal verdicts ahead of Winter Olympics
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Skeleton athlete Katie Uhlaender's Olympic hopes take another hit as complaint dismissed
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What does a Professional Machine Learning Engineer do?

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Question21:

Question22:

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What are the Top 100 AWS and Google Certified Machine Learning Specialty Questions and Answers Dumps?

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GCP Professional Machine Learning Engineer for iOs, Android, Windows 10/11

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Machine Learning For Dummies App for iOs, Android, Windows10/11

What does a Professional Machine Learning Engineer do?

The AWS Certified Machine Learning – Specialty certification is intended for individuals who perform a development or data science role. It validates a candidate’s ability to design, implement, deploy, and maintain machine learning (ML) solutions for given business problems.

Below are the Top 100 AWS Certified Machine Learning Specialty Questions and Answers Dumps.

What are the Top 100 AWS and Google Certified Machine Learning Specialty Questions and Answers Dumps?

AWS Machine Learning Certification Specialty Exam Prep for iOs Android Windows10/11

GCP Professional Machine Learning Engineer for iOs, Android, Windows 10/11

Azure AI Fundamentals AI-900 Exam Prep App for iOS, Android, Windows10/11

Machine Learning For Dummies App for iOs, Android, Windows10/11

What does a Professional Machine Learning Engineer do?

The AWS Certified Machine Learning – Specialty certification is intended for individuals who perform a development or data science role. It validates a candidate’s ability to design, implement, deploy, and maintain machine learning (ML) solutions for given business problems.

Below are the Top 100 AWS Certified Machine Learning Specialty Questions and Answers Dumps.

Question 3) A term frequency–inverse document frequency (tf–idf) matrix using both unigrams and bigrams is built from a text corpus consisting of the following two sentences:

Question 5) Which service in the Kinesis family allows you to easily load streaming data into data stores and analytics tools?

Question 7) Your organization has a standalone Javascript (Node.js) application that streams data into AWS using Kinesis Data Streams. You notice that they are using the Kinesis API (AWS SDK) over the Kinesis Producer Library (KPL). What might be the reasoning behind this?

Question 8) A data scientist is evaluating different binary classification models. A false positive result is 5 times more expensive (from a business perspective) than a false negative result. The models should be evaluated based on the following criteria:

Question 9) A data scientist uses logistic regression to build a fraud detection model. While the model accuracy is 99%, 90% of the fraud cases are not detected by the model. What action will definitely help the model detect more than 10% of fraud cases?

Question 10) A company is interested in building a fraud detection model. Currently, the data scientist does not have a sufficient amount of information due to the low number of fraud cases. Which method is MOST likely to detect the GREATEST number of valid fraud cases?

Question 15) You are collecting clickstream data from an e-commerce website to make near-real time product suggestions for users actively using the site. Which combination of tools can be used to achieve the quickest recommendations and meets all of the requirements?

Question 16) Which service built by AWS makes it easy to set up a retry mechanism, aggregate records to improve throughput, and automatically submits CloudWatch metrics?

Question 18) Which services in the Kinesis family allows you to analyze streaming data, gain actionable insights, and respond to your business and customer needs in real time?

Question 20) Which service in the Kinesis family allows you to build custom applications that process or analyze streaming data for specialized needs?

Question21: Of the following, which is an example of machine learning? (Select TWO.)

Question22:Which of the following is an appropriate use case for unsupervised learning?

Question23:

Question24: A Djamgatech retail company wants to deploy a machine learning model to predict the demand for a product using sales data from the past 5 years. What is the MOST efficient solution that the company should implement first?

Question25: In which phase of the ML pipeline do you analyze the business requirements and re-frame that information into a machine learning context.

Question2: Which feature of Amazon SageMaker can you use for preprocessing the data?

Answer2: Amazon Sagemaker Notebook instances

Question3: What setting, when creating an Amazon SageMaker notebook instance, can you use to install libraries and import data?

Answer3: LifeCycle Configuration

Question4: How to Choose the right Sagemaker built-in algorithm?

Top 10 Google Professional Machine Learning Engineer Sample Questions

Machine Learning Q&A Part I:

Where’s the easiest place in the world to upload and model a Petabyte of structured data? BigQuery of course.

Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?

Machine Learning Q&A -Part II:

Question2: Which feature of Amazon SageMaker can you use for preprocessing the data?

Answer2: Amazon Sagemaker Notebook instances

Question3: What setting, when creating an Amazon SageMaker notebook instance, can you use to install libraries and import data?

Answer3: LifeCycle Configuration

Question4: How to Choose the right Sagemaker built-in algorithm?

Top 10 Google Professional Machine Learning Engineer Sample Questions

Machine Learning Q&A Part I:

Where’s the easiest place in the world to upload and model a Petabyte of structured data? BigQuery of course.

Do we Need Hundreds of Classifiers to Solve Real World Classification Problems?

Machine Learning Q&A -Part II:

Question2: Which feature of Amazon SageMaker can you use for preprocessing the data?

Answer2: Amazon Sagemaker Notebook instances

Question3: What setting, when creating an Amazon SageMaker notebook instance, can you use to install libraries and import data?

Answer3: LifeCycle Configuration

Question4: How to Choose the right Sagemaker built-in algorithm?

Top 10 Google Professional Machine Learning Engineer Sample Questions

Machine Learning Q&A Part I:

Where’s the easiest place in the world to upload and model a Petabyte of structured data? BigQuery of course.

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