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Digital Assurance
April 20, 2023
As businesses continue to explore increased automation and intelligent solutions to end-user problems, generative AI has upped the ante by revolutionizing automation like never before. Powered by huge corpora of data, robust computational power, and innovative, optimized algorithms, AI has brought the world to the cusp of a metamorphosis. The way individuals and businesses process data, use technology, and consume information is set to see a fundamental transformation. The unveiling of ChatGPT toward the end of 2022 has unleashed a chain reaction of sorts. Multiple AI tools are already out or are on the anvil, promising even better performances. According to a Dutch-based data provider Dealroom, investment in generative AI companies has increased tenfold from 2020, totaling nearly $2.1 billion in 2022! This is testimony to the promise and potential that generative AI holds for the future.
Autonomous testing is a fast-emerging paradigm driven by Artificial Intelligence and Machine Learning algorithms that help businesses eliminate or reduce manual effort in the software testing lifecycle. Autonomous testing offers several benefits, such as improved testing efficiency, faster time-to-market, reduced testing costs, and increased test coverage. It also enables testing in complex and dynamic environments and reduces the risk of human error. As a natural consequence of adopting this paradigm, the development teams benefit from shorter internal delivery cycles and early feedback.
Hexaware has carefully studied the entire software quality assurance lifecycle and identified several use cases that need human intervention and man-days to be completed. Examples include developing and maintaining automation scripts, failure analysis, corrective actions recommendation, and consuming data from various sources to provide meaningful insights that help improve the software quality. These implementations will help customers navigate from test automation to autonomous testing, where software testing is the fastest cog in the DevOps chain.
ATOP (Autonomous Test Orchestration Platform) is a unified platform built by Hexaware to implement autonomous testing in pursuit of making software testing independent of human intervention. ATOP is an integrated one-stop solution for the end-to-end testing lifecycle. It comes with a plug-and-play architecture that can be seamlessly integrated with the client’s IT landscape. We have over 200 use cases covering the following areas –
The traditional approach for implementing AI and ML algorithms for autonomous testing essentially involves the following stages:
The traditional approach for implementing AI/ML algorithms for autonomous testing involves a rigorous and iterative process. Based on the use case, it can require larger volumes of data and more expensive computational resources.
Based on the production setup and domain of business, the models may have to be finetuned or retrained with relevant data. Regular retraining of the models in production based on recent, real-time data keeps the models relevant in time.
Using AI/ML models provided by generative AI tools like ChatGPT takes autonomous testing up a notch. Below are some of the critical value-adds they can provide:
Overall, these can make the output more reliable, accurate, exhaustive, and relevant to the context as it results from intelligent decision-making, smarter transactions, and optimized data processing. Hexaware envisions using this power of generative AI within the ATOP systems, thereby taking autonomous testing to a new level.
OpenAI’s ChatGPT, GPT-4, MidJourney, Jasper – AI, Google Bard, and DeepMind’s AlphaCode are a few popular generative AI platforms.
Described below are a few autonomous use cases in ATOP. We discuss the conventional approaches taken to implement these, along with the value that Generative AI adds to the implementation when incorporated.
Problem Statement: Given the failure logs from various test automation runs, we would want to classify the errors and exceptions into categories like application errors, automation exceptions, environmental downtimes, etc.
Conventional Approach: Preprocessed and labeled exceptions related to test automation failures are used to train classic Machine Learning models. The exceptions cover a list of root causes like:
Algorithms like Random Forest and Decision Trees Classifier are trained and finetuned to predict the root cause of the failure or exception.
Model retraining is done periodically with more recent data to keep the models temporally relevant and stable.
RCA Using Generative AI – Strategy and Advantages: The strategy is to use their official APIs to tap into the generative AI model tools. These models are trained on huge corpora of data, including failure logs and their corresponding labels.
We would post API requests with prompts containing the details of the test failure exceptions to the models. The response from the models having the failure classification is post-processed with the failure reasons identified by LLM and sent to downstream systems.
AI algorithms can swiftly process large corpora of test failure logs to classify them based on the root cause that triggered each failure. Given a context, generative AI can also suggest a corrective action based on the root cause of an automation test failure.
Generative AI significantly increases confidence in the output, as the models are trained on huge data sourced across businesses and domains. We would save on training and retraining costs as well.
Following is a Python code snippet with the API request that we send to ChatGPT:
Here is a sample output where ChatGPT labeled exceptions:
Problem Statement: Given user requirements from the business, we would want to convert them to Gherkin feature files automatically, with good test coverage and parameterization.
Conventional Approach: Rule-based mapping and similarity computations generate statements based on the input user stories. Based on the best rule match, feature statements are selected and generated, given an input requirement statement. The mapping rules are hashed and are periodically updated based on new templates encountered.
Predefined feature file statements are also triggered based on similarity with the incoming user requirements. The initial data for creating the mapping of rules was sourced from user story requirements and corresponding feature files for known scenarios.
Feature File Generation Using Generative AI – Strategy and Advantages: Generative AI can handle user requirements in several forms and templates. It can intelligently recognize and process requirements through user stories, acceptance criteria, simple text, or even comprehensive documentation. These state-of-the-art models are not adversely sensitive to dynamic presentation styles, verbose, or templates. The requirements, usually in the form of user stories, need not be in a specific format or follow a certain syntax.
Generative AI can thus be used to transform end-user requirements into parameterized behavioral features. This comes with the added advantage of increased test coverage and validation of non-functional aspects relevant to a given requirement.
The other benefit we derive by using models like ChatGPT here is that we can leverage complex deep-learning models with a large number of parameters and cutting-edge algorithms using transformers at a very competitive price point. These are otherwise very expensive investments to train and retrain at stipulated intervals.
Below is a simple example where a requirement related to incident management is converted to a feature file:
Prompt sent to ChatGPT using OpenAI’s API:
“Generate Gherkin BDD scenarios for the following user story, including parameters and values as applicable:
As a customer service representative, I want to be able to create a new incident in ServiceNow when a customer reports an issue so that the incident can be tracked and resolved in a timely manner.”
Response received from ChatGPT:
With this initial output, with additional context-based prompts, the output quality can be further fine-tuned and enhanced to meet enterprise demands.
Problem Statement: This relates to ETL (Extract/Transform/Load) testing. Based on the information related to the source database, target database, and the transformation business rules, generate SQL queries that can be used to validate successful data transformation from source to target.
Conventional Approach:This process was a manual activity and a white space for potential automation. Based on business rules for transformation, SQL queries for ETL testing were arrived at.
Data Generation using Generative AI – Strategy and Advantages: Autonomous test data generation for a given feature is a popular application of AI capabilities. Apart from this, businesses can also leverage this to validate data transformation from the source to target systems based on business rules.
One such example is this use case. ChatGPT generates source and target SQL queries for ETL [Extract/Transform/Load] testing, as shown in the example below. The input prompts generally include the source and target table names, columns in question, and any transformation business rules applied before load.
This implementation would eliminate the manual effort needed to write the queries by using models that can generate code, as they were trained on a large number of code bases. It saves us time and effort that would have otherwise been incurred to access, process, and train with this grand scale of data.
Source SQL Query:
SELECT
Order_identifier,
Trade_identifier,
CASE WHEN Product_Code = ‘EQ’ THEN ‘EQUITY’ ELSE Product_Code END AS Product_Code,
Transaction_Type,
Trade_Date,
Settle_Date,
Transaction_Currency,
Settlement_Currency,
Broker_Id,
Broker_Email,
Clearing_Broker,
CASE WHEN Cusip = ‘000000000’ THEN ‘0’ ELSE Cusip END AS Cusip,
ISIN,
Security_Id,
Execution_Price,
Order_Quantity,
Commission_Amount
FROM Order_Details_Staging;
Target SQL Query:
Order_identifier,
Trade_identifier,
Product_Code,
Transaction_Type,
Trade_Date,
Settle_Date,
Transaction_Currency,
Settlement_Currency,
Broker_Id,
Broker_Email,
Clearing_Broker,
Cusip,
ISIN,
Security_Id,
Execution_Price,
Order_Quantity,
Commission_Amount
FROM Order_Details_Staging1;
While Generative AI tools like ChatGPT do make significant value adds to business solutions, we see a few challenges that need to be worked with. Apart from the commonly known limitations like lack of context and open-ended responses, listed below are a few challenges particular to implementing APIs for autonomous testing use cases.
Using creative and smart ways to address these challenges will enable teams and businesses to benefit from the capabilities of generative AI. Faster responses, training on huge corpora of data, high computational power, and cutting-edge deep learning algorithms are the key differentiators that these tools can offer.
We see an opportunity for autonomous testing tool providers to leverage these AI algorithms and cover the white spaces in the software testing lifecycle. Generative AI has great potential to not only accelerate autonomous testing implementation but also increase confidence in the output of the tools and platforms that use it.
About the Author
Prashanth Parichie
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