This is a simple representation, and the actual workflow might be more complex based on your team's specific requirements and processes. Customize the workflow according to your team's needs, and consider integrating it with your version control system and other tools for a seamless development process.
Quality Process Analyst | Tools Management | Technology Management | People Management
Friday, December 8, 2023
Below is a simplified example of a customized Jira workflow for Product Development and QA (Quality Assurance). This is a basic representation, and you may need to adapt it to match the specific needs and processes of your team or organization.
This is a simple representation, and the actual workflow might be more complex based on your team's specific requirements and processes. Customize the workflow according to your team's needs, and consider integrating it with your version control system and other tools for a seamless development process.
This is a simple representation, and the actual workflow might be more complex based on your team's specific requirements and processes. Customize the workflow according to your team's needs, and consider integrating it with your version control system and other tools for a seamless development process.
Thursday, December 7, 2023
Calculate Software Automation ROI
Software automation ROI" refers to the Return on Investment (ROI) associated with implementing software automation in a business or organizational context. ROI is a measure used to evaluate the financial benefits of an investment relative to its cost. In the case of software automation, ROI assesses the value gained from automating specific processes or tasks compared to the expenses incurred in implementing and maintaining the automation.
Here are the following calculation parameters: (used google sheets)
Data Calculation parameters:
- Number of test-cases can be automated: (B5 -(B5*B6)/100)
- Automation of the test-cases needs: =(($B$7*$B$11)+B9)/B12
- Time-to-market acceleration: =(B10*B7*B8)/8
Statistics calculation parameters:
Saved manual testing time (accumulated), hrs =
- =$B$10*F21*$B$8*0
- =H21+($B$10*F22*$B$8) ...
Automation costs (accumulated), hrs =
- =D21
- =D22+I21 ...
Autotests run and support cost, hrs=
- 0.00
- =$B$13 ...
Test cases automated =
- =IF((E21/$B$11)*B12 >= $B$7, $B$7, (E21/$B$11)*B12)
- =IF(((E22/$B$11)*$B$12) + $F21 >= $B$7, $B$7, (($E22/$B$11)*$B$12) + F21) ...
Autotests development cost, hrs using standard working hrs/month =
- =IF($B$14 <= $B$18 * $B$12, $B$14, $B$18*$B$12)
- =IF(SUM($E$21:E21)+$B$18 >= $B$14, MAX(0, $B$14 - SUM($E$21:E21)), $B$18*$B$12) ...
Automation costs, hrs =
- =E21+G21
- =E22+G22 ...
Saved manual testing time, hrs =
- =$B$10*F21*$B$8*0
- =$B$10*F22*$B$8 ...
ROI, hrs =
- =H21-I21
- =H22-I22 ...
Total saved in $ (- ve means in loss) =
- =(B45*B17)
Subscribe to:
Posts (Atom)