- 1. Purpose
- 2. Planning
- 3. Solicitation, Selection, and Award
- 4. Technical Monitoring and Quality Assurance
- 5. Contract Administration
- 6. Product Acceptance and Control
- 7. Contract Closeout
- 8. Useful Practices, Activities and Templates
- 9. Resources
This topic discusses guidance for projects implementing those requirements in NASA Procedural Requirement (NPR) 7150.2, NASA Software Engineering Requirements that address software acquisition. This guidance is intended for all persons responsible for the software acquisition process, from the planning stages through contract closeout. Acquisition may involve procedures and regulations external to the software community, including variations by contract type; therefore, it is important to consult Center guidance and coordinate acquisition activities among the proper stakeholders, including, but not limited to, software engineering, procurement, finance, and contracts.
Approve procurement plan.
Software Lead Engineer
Prepare procurement plan; prepare statement of work (SOW) software requirements and software data requirements for the contract; monitor execution of contract; conduct trade studies, engineering analyses.
Conduct trade studies, engineering analyses.
Contracting Officer (CO)
Prepare acquisition approach, prepare solicitation, guide proposal evaluation, prepare contracts, prepare modifications to contracts.
Contracting Officer's Representative (COR)
Work with CO to plan acquisition approach, prepare SOW, evaluate proposals, determine the technical adequacy of proposed approach, monitor technical implementation.
Software Technical Authority
Before contract release, verify that the SOW includes the complete flowdown of the Agency and Center software requirements [recommended practice].
Before software acquisition can be carried out, a need must be identified for which a solution is required. During the planning stage, various options to address the identified need are evaluated. The following are possible options:
- Acquire off-the-shelf (OTS) product.
- Develop/perform service in-house (make/buy decision).
- Contract development/service.
- Use/enhance existing product/service (consider reuse of existing software components for applicability to project).
If the solution to the need will involve software, NPR 7150.2 applies, and the acquisition planning guidance below supports project success:
- Define the scope of the system of interest.
- Identify the goals and objectives for the software portion of the system.
- Identify key stakeholders.
- Perform “make or buy” market research/trade studies to determine if an
- Establish criteria (and a plan) for the studies:
- Technical requirements (functional, operational, performance):
- NPR 7150.2 classification.
- Constraints and limitations (cost, schedule, resources).
- Use past studies, known alternatives, existing make/buy criteria.
- Conduct studies:
- Assess potential products and technologies.
- Assess how well technical requirements are addressed.
- Assess estimated costs, including support.
- Assess safety criticality.
- Identify risks (delivery, safety, development practices used by supplier, supplier track record, etc.).
- Assess provider business stability, past performance, ability to meet maintenance requirements, etc.
- Assess commercial off-the-shelf/government off-the-shelf/military off-the-shelf products for potential use. (See SWE-027.)
- Identify in-house capabilities to meet the need:
- Assess availability of existing products which could meet the need or be modified to meet the need.
- Assess availability of qualified personnel for development or modification activities.
- Assess estimated costs (time, personnel, materials, etc.), including support.
- Use past projects as basis, where appropriate.
- Identify risks.
- Determine if solution will be custom made, an existing product, or a modified existing product.
- Expected classification of the software to be acquired.
- Availability of in-house staff and funding resources.
- Availability of the software product(s).
- Projected licensing and support costs.
- List of potential suppliers.
- Security considerations.
- Potential risks related to supplier’s viability and past performance.
- Estimate of in-house versus acquisition costs (including OTS solutions and any associated costs for requirements not met by the OTS solution).
- Comparison of cost estimates to available funding.
- Risk assessment.
- Assumptions, observations, rationale, determining factors.
- Significant issues, impacts of each option.
- If solution is in-house development/service, an acquisition is no longer required.
- If solution is to acquire product/service, continue with this guidance as needed based on development under contract or purchase OTS solution.
- Other planning decisions resulting in best overall value to NASA.
- Description of chosen acquisition strategy.
based on requirements and “make or buy” decisions:
- Those directly concerned with, or affected by, the acquisition decision.
- May include management, the project team, procurement, customers, end users, and suppliers.
3. Solicitation, Selection, and Award
Once the planning activities for software acquisition have been completed and the decision has been made to acquire the software or software development services, a selection process needs to be followed to choose the best provider for the project. This process typically begins with development of a Statement of Work (SOW).
Typically, solicitations are prepared by the procurement or contracts department with input from project management and engineering. Solicitations are as complete as possible to ensure potential providers are aware of all tasks and activities for which they will be held responsible.
Checklists (e.g., the NASA Process Asset Library (PAL) contains checklists for NPR 7150.2 requirements by class and safety criticality) and solicitations for similar projects help ensure that all required activities are included in the solicitation. Example solicitations,
s, and work breakdown structures (
s) that are considered "best practices" are also helpful starting points; using problematic examples will only carry forward the problems exhibited or caused by those documents.
The following is a list of useful practices when documenting tasks and activities in the solicitation:
- Keep the task descriptions clear, concise, and in terms that providers will understand.
- Avoid over-specifying (specifying every item to the smallest detail leaving no options).
- Avoid under-specifying (providing insufficient or incomplete details).
- Clearly mark mandatory versus optional/recommended tasks, activities, standards, etc.
The following recommendations should be considered as part of the SOW development process. Additionally, a SOW checklist reference is included in the Useful Practices, Activities and Templates section (tab 8) of this guidance document.
- Develop solicitation, including
- Acceptance criteria (SWE-034).
- Solicitation constraints.
- Proper requirements from the software development perspective*:
- Software classification (from NPR 7150.2) and safety criticality (from Software Safety Litmus Test).
- Technical requirements.
- Adherence to requirements for safety-critical software (see SWE-134, SWE-023, and NPR 7150.2, Appendix C).
- Development standard to be followed, if any.
- Development life cycle to be followed or indication that developer can choose appropriate life cycle (SWE-019).
- Surveillance activities (and acquirer involvement), including monitoring activities, reviews, audits (SWE-045), decision points, meetings, etc.(SWE-039)
- Management and support requirements (project management, schedule and schedule updates (SWE-046), configuration management, non-conformance and change tracking (SWE-043), risk management, metrics collection, Independent Verification and Validation (IV&V) support, required records, traceability records (SWE-047), electronic records and code access (SWE-042), V&V, etc.)
- Requirements for maintenance, support, updates, new versions, training to be included in life-cycle and cost estimates.
- Concise task and deliverable descriptions, including delivery format (SWE-040).
- Media format for code deliverables (SWE-040).
- Templates or Data Item Descriptions (DIDs) for documentation deliverables.
- Complete set of deliverables with delivery dates, review periods, and acceptance procedures for each.
- Time period for responses to review findings, including making changes.
- Data Requirements Documents (DRDs) for deliverables, if appropriate.
- Government and contractor proprietary, usage, ownership, warranty, data, and licensing rights, including transfer.
- Requirement to include notice of use of open source software (SWE-041) in developed code.
- OTS software requirements (SWE-027) (identify which requirements are met by
- List of all mandatory NASA software development standards and DIDs, as applicable.
- Requirements for non-expired
2. Ensure proper review of SOW before delivery to procurement/contracts official:
- Technical Authority to ensure proper flowdown of NPR 7150.2 requirements.
- Coordinate with the Safety and Mission Assurance Office to ensure all quality assurance requirements, clauses, and intended delegations are identified and included.
3. Identify potential suppliers.
4. Distribute solicitation package.
5. Evaluate proposals (typically an evaluation team), based on selection criteria established during the acquisition planning phase, including:
- Cost estimation comparisons.
- Evaluation of how well proposed solutions meet the requirements (including interface and technology requirements, NPR 7150.2 requirements).
- Staff available.
- Past performance.
- Software engineering and management capabilities.
- Prior expertise on similar projects.
- Available resources (facilities, hardware, software, training, etc.).
- Capability Maturity Model Integration (CMMI®) ratings.
- Check the SEI Published Appraisal Results (PARs) to confirm non-expired rating (https://sas.cmmiinstitute.com/pars) 327.
- Be sure to check the scope of the organization holding the CMMI® rating to confirm the rating is held by the specific organization submitting the proposal.
- Other factors relevant to the project.
6. Select supplier/contractor and document basis for selection.
7. Negotiate, finalize and document contract:
- Based on SOW.
- Management reviews and meetings, such as:
- Formal reviews, such as those found in NPR 7123.1, NASA Systems Engineering Processes and Requirements, and NPR 7120.4, NASA Engineering and Program/Project Management Policy.
- Technical reviews.
- Progress reviews.
- Peer reviews (see Topic 7.10 - Peer Review and Inspections Including Checklists in Handbook).
- Software quality assurance meetings.
- System integration test and verification meetings.
- System safety meetings.
- Configuration management meetings.
- Other relevant reviews for this project.
- Consider for inclusion in contract provisions (description of the method to be used) for verification of:
- Contractor handling of requirements changes.
- Accuracy of contractor transformation of high-level requirements into software requirements and detailed designs.
- Interface specifications between the contractor’s product and systems external to it.
- Adequacy of contractor’s risk management plan and its implementation in accordance with the required activities in the project Software Risk Management Plan.
- Adequacy of the contractor’s integration and test plan and its implementation in accordance with the required activities in the project Software Integration and Test Plan.
- Adequacy of the contractor’s configuration management plan and its implementation in accordance with the required activities in the project Software Configuration Management Plan.
- Consider for inclusion in the contract the content and frequency of progress reports and metrics submissions.
- Consider for inclusion in the contract identification of quality records to be maintained by the supplier.
- Consider for inclusion in the contract the delivery process and how it will be accomplished; if incremental development and delivery agreed upon, state how the validation process works, e.g., incremental validation, and whether it requires integration and test with software/hardware products developed by acquirer and/or other contractors or organizations (other institutes, universities, etc.).
- Consider for inclusion in the contract a policy for maintaining the software after delivery: Who is responsible for maintenance of the software, tools, testbeds, and documentation updates.
4. Technical Monitoring and Quality Assurance
Once the provider has been chosen, the acquisition process moves into a technical monitoring role. The following guidance should be included when establishing the process for provider monitoring and quality assurance:
- Provide technical requirements interpretation for contractor.
- Ensure contractor requirements documents meet original intent.
- Evaluate contractor progress with respect to cost.
- Periodically monitor contractor skill mix to ensure agreed-upon skills and experience levels are being provided.
- Oversee government-furnished equipment (GFE) to ensure equipment and information provided in timely manner.
- Periodically assess contractor processes to ensure conformance to process requirements stated in the contract.
- Review and assess adequacy of contractor-provided documentation and ensure contractor implementation of feedback, consider using Formal Inspections (SWE-087) to accomplish this task.
- Track status considering the following example questions:
- Is the contractor meeting their staffing plan?
- Have the project and the contractor met the user’s needs?
- Does the contractor have stable, educated staff?
- Does the contractor’s project have adequate resources, e.g., adequate staffing and computer resources?
- Is there realistic planning/budgeting in place?
- Is the build plan being met?
- Does the contractor have a good understanding of what is required?
- Are the requirements stable?
- Is the completion of designed functionality visible?
- Is the evolving capability and performance of the contractor’s product likely to impact development on the acquirer side of the interface?
- Are integration and testing proceeding as planned?
- Is contractor cost/schedule performance on target?
- Is contractor developing a quality product?
9. Provide regular status reviews to higher-level management on contractor progress.
10. Regularly assess status of identified risks and provide reports during management reviews.
11. Software engineering should provide technical review to the level required to enhance the probability of mission success. (See the $paramlinktext of this topic for a list of areas to consider for software engineering technical review.)
5. Contract Administration
In addition to monitoring the selection provider’s progress and quality, contract administration activities are also carried out for the project. The following guidance should be included when establishing the process for contract administration:
- Regularly assess contractor financial data and invoices against budget.
- Work with Contracting Officer to ensure timely resolution of any contract-related issues.
- Work with Contracting Officer to ensure timely address of needed modifications to contract terms and conditions, as needed. These are primarily those affecting schedule, costs, services/products, resources (people, facilities), deliverables.
- Periodically evaluate contractor performance in manner consistent with contract and provide documented evaluation to Contracting Officer.
6. Product Acceptance and Control
Once the provider is ready to deliver the software product, the acquirer should have a process in place for review and acceptance of the product. The following guidance should be included when establishing the process for product acceptance:
- Review deliverables based on agreed-upon acceptance criteria (or generally accepted standards, if specific criteria have not been established), document results, and work with contractor to resolve acceptance issues.
- Typically, an acceptance test plan is created addressing the following:
- Acquirer and contractor roles and responsibilities.
- Defined test strategy.
- Defined test objectives.
- Defined acceptance criteria.
- Developed test Scenarios.
- Developed test scripts.
- Developed test matrix.
- Time and resources estimate.
- Approval cycle.
- Strategy for post-delivery problem resolutions.
- Once approved, the test plan is executed and results are documented:
- Select test tools.
- Select and train team members.
- Execute the test plan (manual and automated methods).
- Track test progress.
- Regression test.
- Document test results.
- Resolve problems.
- Typically, an acceptance test plan is created addressing the following:
2. Complete a Physical Configuration Audit (PCA) and a Functional Configuration Audit (FCA) to ensure that traceability is complete, that necessary waivers are in place, and that all required documentation has been developed.
3. Place formal deliverables under configuration control.
4. After acceptance of delivered products, support transition to an operational and/or maintenance environment.
7. Contract Closeout
The final acquisition step is to close out the contract. The following guidance should be included when establishing the process for contract close-out:
- Verify satisfaction of all contract terms and conditions, considering the following sample questions:
- Has the contract period of performance expired (level of effort type contract)?
- Have all deliverables been delivered (completion type contract)?
- Have all Contract Data Requirements List (CDRL) items been delivered and accepted?
- Was the contractor’s performance of the SOW acceptable?
- If the contract involved patent rights, has the final patent report been filed?
- Has the final invoice been received?
2. Verify return of all
, as appropriate.
3. Complete final reports as requested by Contracting Officer.
4. Provide final contractor performance evaluation to Contracting Officer.
5. Capture Lessons Learned, if not captured earlier in the project life cycle.
8. Useful Practices, Activities and Templates
The documents below are tools collected from various Centers that have been deemed good practices or practices that work well and produce good results. They are included here as aides for carrying out the software acquisition process.
8.1 CMMI® Rating Language for Request for Proposal (RFP)
If a project wants to procure the development of Classes A, B or C software, the project must levy the associated requirements for which the project has responsibility and also clearly specify that the contractor meet CMMI® maturity level requirements associated with the class. Below are examples of wording that could be used in a statement of work to describe the CMMI® maturity level requirements:
For Class A software:
The contractor responsible for the acquisition, development, or maintenance of Class A software shall have a non-expired CMMI®-DEV rating, as measured by a Software Engineering Institute (SEI) authorized or certified lead appraiser, of CMMI®-DEV Maturity Level 3 rating or higher for software, or CMMI®-DEV Capability Level 3 rating or higher in all CMMI®-DEV Maturity Levels 2 and 3 process areas for software.
For Class B software:
The contractor responsible for the acquisition, development, or maintenance of Class B software shall have a non-expired CMMI®-DEV rating, as measured by an SEI authorized or certified lead appraiser, of CMMI®-DEV Maturity Level 2 rating or higher for software or CMMI®-DEV Capability Level 2 rating or higher for software in the following process areas:
- Requirements management.
- Configuration management.
- Process and product quality assurance.
- Measurement and analysis.
- Project planning.
- Project monitoring and control.
- Supplier agreement management (if applicable).
For Class C software:
The project can minimally choose to pass down this requirement in accordance with the Center's procedures related to Class C, as long as the project provides some action that determines the contractor's capability to develop software in a "meets or exceeds" manner. As many NASA contractors are already at CMMI® Maturity Level 2 or higher, the project may alternatively choose to simply require Maturity Level 2 in the RFP for Class C software.
If a contractor chooses to subcontract the development of Classes A, B, or C software, then the subcontractor(s) is also required to have a CMMI® Maturity Level 2 (for Class B), Maturity Level 3 (for class A), or Center-specified (for Class C) rating.
8.1.1 General Example
The contractor and its subcontractors' organizations associated with software development responsibilities shall be at SEI Software CMMI®-DEV Maturity Level 3 (Staged Representation) or higher, before the Preliminary Design Review.
8.1.2 Examples for RFP Information Technology (IT) Management Section
Example 1: IT Management
For IT applications other than mission-specific flight and non-flight software, the contractor shall use commercial off-the-shelf and existing government off-the-shelf products where cost effective to NASA. All IT applications, other than mission-specific flight and non-mission flight software, shall comply with NASA requirements as outlined in NPR 7150.2 for the appropriate software classes, limited to Classes E, F, and G, and as applicable for the project, MPR 2800.4, Marshall Operational Readiness Review (MORR) for Center Applications and Web Sites, and NPR 2830.1, NASA Enterprise Architecture (EA) Procedures.
Example 2: IT Management
For IT applications, other than mission-specific software, the contractor shall:
- Where cost effective to NASA, use commercial off-the-shelf and existing government off-the-shelf products.
- Ensure compatibility with existing NASA applications and systems.
- Comply with NASA requirements for NPR 7150.2 for the appropriate software classes, limited to Classes E, F, and G, and as applicable for the project.
8.1.3 Examples for RFP Software Section
Example 1: Embedded Software (Firmware)
The contractor shall develop and maintain software in accordance with NPR 7150.2 for the appropriate software classes and as applicable for the project and NASA-STD-8739.8 278 , NASA Software Assurance Standard (chapters 6 and 7).
Example 2: Software Engineering
- The contractor shall define, design, develop, test, qualify, integrate, verify, validate, deliver, and maintain all software. The plans for accomplishing this work shall be documented in DRD, Software Development Plan.
- The contractor shall justify the reuse of existing software, modification of existing software, and the development of new software in DRD, Software Development Plan.
- The contractor shall, under project direction, participate in coordinating with the NASA IV&V Facility in accordance with NASA-STD-8739.8 (chapters 6 and 7) to plan for the participation of the NASA IV&V Facility in the software development life-cycle activities.
- The contractor and its subcontractors' organizations associated with software development responsibilities shall be at SEI Software CMMI®-DEV Maturity Level 3 (Staged Representation) or higher, before the Preliminary Design Review. This requirement does not apply to commercial off-the-shelf software procured for the project.
- The contractor shall develop, update, and maintain all software and software development tools under configuration management in accordance with the DRD, Software Configuration Management Plan.
- The contractor shall develop and maintain electronic Software Development Folders for all flight, ground, and test software in accordance with DRD, Software Development Folder.
- The contractor shall use the following guidance document for the development of all software document deliverables:
- Project Classification Matrix (use as guidance in interpreting flight software classification definitions in NPR 7150.2).
h. The contractor shall use the following Standards for designing, developing, and testing all software:
- NPR 7150.2.
- NASA-STD-8739.8 (chapters 6 and 7).
The contractor shall define, design, code, test, integrate, and qualify the software. The contractor shall treat the software component of firmware, which consists of computer programs and data loaded into a class of memory that cannot be dynamically modified by the computer during processing, as software for the purposes of this SOW. The scope of this activity applies to the reuse of existing software, modification of existing software, and/or development of new software. The contractor shall provide information and access to products under development to provide the Government with insight into software development and test activities, including monitoring integration and verification adequacy, auditing the software development process, and participation in all software and system reviews. The contractor shall support the implementation of the overall risk management process, as well as program status and progress reviews for the software development process. The contractor shall support software Technical Interchange Meetings and other status meetings, as required, to facilitate Government insight into the software development. The Government insight may include Government civil servant insight, Government support contractor insight, and independent verification and validation review. The contractor shall perform peer reviews on Software Requirements Specifications, Software Test Plans, and on selected design and code items and provide results to the Government via Software Inspection/Peer Review Reports. The contractor shall maintain software metrics and provide Software Metrics Reports in accordance with
The contractor shall provide the Government web-based electronic access (with access control) to intermediate and final software products (including code) and software process tracking information, including software development and management metrics.
The software development shall comply with NPR 7150.2 as applicable for the project by NASA software classification.
8.1.4 Example for RFP EGSE Software Section
Example 1: EGSE Software
a. The contractor shall perform the design, code, verification, validation, and delivery of all EGSE code and executables in response to EGSE Subsystem Requirements Document.
b. The contractor shall develop and maintain software in accordance with NPR 7150.2 for the appropriate software classes and as applicable for the project and NASA-STD-8739.8 (chapters 6 and 7).
8.2 Recommended Technical Review Activities List
Areas to consider for software engineering technical review consist of the following:
- Performing independent assessment of software systems engineering, software processes, software products, software integration, and software test analyses.
- Reviewing all mission-critical software products.
- Performing software schedule and resource assessments and analyses.
- Developing software technical oversight plans.
- Coordinating any software related issues with the project.
- Participating in reviews and Technical Interchange Meetings.
- Performing periodic audits on pre-defined process(es).
- Serving as chair board, as board member, or as Review Item Disposition (RID) writer, at a formal review.
- Participating in resolution and closure of issues.
- Checking and comparing vendor data with independent models.
- Performing evaluations of software products (software documentation, code, etc.)
- Serving as Software Technical Authority responsible for acquired software products.
- Providing planning and project support:
- Support and coordinate software trade studies.
- Assess software development processes.
- Support review of system-level requirements specifications.
- Support development and review of system-level verification and validation test plans.
- Verify compliance with Software Development Plan(s).
- Verify compliance with Software Quality and Configuration Management Plans.
- Participate in project documentation reviews.
- Support risk management activities.
- Participate in project and software developer review boards, Technical Interchange Meetings, Working Groups, and telecons.
- Participate in developer's daily and/or weekly software development activities to maintain knowledge of software development progress.
- Identify and track software metrics.
- Review and assess schedule of the software development activities.
- Provide a status of the developer's software progress, metrics, and any problems to the project.
- Conduct periodic site visits as needed to attain knowledge of software development progress.
- Review and assess the content and completeness of instrumentation and command control list (engineering integration database).
- Requirements analysis:
- Verify absence of problems and risk items associated with requirements:
- Documentation standards used and properly applied.
- System requirements clearly organized.
- Even emphasis and levels of detail.
- Consistent identification schemes.
- Clear or concise requirement statements.
- Good sentence structure.
- Good word selection, unambiguous terms.
- Track growth in size and complexity of requirements to identify positive/negative trends.
- Estimate variances in schedule and costs based on requirements size and completeness.
- Support software requirements problem and issue resolution.
- Review and assess the interface specifications and data.
- Verify software requirements traceability.
- Support software requirements walkthroughs.
- Support evaluation of potential requirements changes and associated impacts through the life of the project.
- Design Phase:
- Support review of preliminary and detailed design specifications (DDS)
- Support software design problem and issue resolution.
- Verify traceability of design to software requirements.
- Support design walk-throughs.
- Code analysis:
- Track growth and complexity of source code modules across builds.
- Rank source code modules according to their relative risk, as determined by:
- Percent of internal documentation.
- Overly large files or modules.
- Use of unstructured programming constructs.
- High decision or calling complexity.
- Unused or "dead" code.
- Poor implementation, if applicable.
- Comply with program coding standards.
- Develop and maintain knowledge of code functionality.
- Present code functionality to subsystems for validity.
- Support code development and integration testing.
- Support software code problem and issue resolution.
- Support developer code walk-throughs.
- Test Phase:
- Support development and review of test plans, test procedures, and test cases.
- Support the test readiness review (TRR):
- Review and identify discrepancies in software documentation.
- Support final closure of discrepancies.
- Support software test problem and issue resolution.
- Support computer software configuration items (CSCI) integration and test activities.
- Review software test reports.
- Software problem report and effort data analyses:
- Analyze problem reports and present understandable graphical summaries.
- Track error detection and correction rates.
- Assess adequacy of test program.
- Detect schedule risks early.
- Predict effective completion date.
- Software metrics:
- Help project office identify applicable software metrics.
- Review and assess the software metric data provided by the contractor.
- Develop, maintain, and report software insight metric data to the project.
- Software Independent Verification and Validation (IV&V) support:
- Perform software criticality assessments.
- Perform software risk assessments.
- Develop software IV&V project plans.
- Develop software IV&V statements of work.
- Support projects in review of all software IV&V products.
- Provide expertise and assistance to the projects in resolution and implementation of any software IV&V recommendations.
8.3 Statement of Work Checklist
Langley Research Center LMS-CP-5523, Rev. B, Statement of Work (SOW) Review Procedures, contains a useful SOW checklist. See the NASA PAL, accessible to NASA users via the SPAN tab in this Handbook for the latest version of this checklist.
8.4 Example Templates
The following NASA DID are listed as sample documentation templates that can be called for during the solicitation portion of the software acquisition process. Center PALs are to be consulted for DID and
DRDrelevant to a specific NASA Center.
8.4.1 Software Documentation Requirements
The NASA software engineering documentation recommendations are provided in Topic 7.18 – Documentation Guidance in this Handbook. Included are descriptions for:
- Software Development or Management Plan.
- Software Configuration Management Plan.
- Software Test Plan.
- Software Maintenance Plan.
- Software Assurance Plan.
- Software Requirements Specification.
- Software Data Dictionary.
- Software Design Description.
- Interface Design Description
- Software Change Request/Problem Report.
- Software Test Procedures.
- Software User Manual.
- Software Version Description.
- Software Metrics Report.
- Software Test Report.
- Software Peer Review/Inspection Report.
8.4.2 Center DIDs and DRDs
NASA-specific acquisition process information, including sample DIDs and DRDs, is available in Software Processes Across NASA (SPAN), accessible to NASA users from the SPAN tab in this Handbook. Consult your own Center PAL for templates relevant to work performed for your Center.
- A Method for Reasoning About an Acquisition Strategy, Mary Catherine Ward, Joseph P. Elm, Software Engineering Institute (SEI), 2005. Download the PDF at http://www.sei.cmu.edu/library/abstracts/presentations/method2005.cfm.
SWEs and Topics related to this Handbook topic:
Software Life Cycle
Use of Commercial, Government, and Legacy Software
CMMI Levels for Class A, B, and C Software
Acquisition vs. Development Assessment
Access to Software Products
Open Source Software Notification
Source Code Electronic Access
Track Change Request
Project Participation in Audits
Supplier Software Schedule
Software Peer Reviews and Inspections for Requirements, Test Plans, Design, and Code
Flowdown of NPR Requirements and Contracts
|Topic 7.18||Documentation Guidance|
Tools to aid in compliance with this Topic, if any, may be found in the Tools Library in the NASA Engineering Network (NEN).
NASA users find this in the Tools Library in the Software Processes Across NASA (SPAN) site of the Software Engineering Community in NEN.
The list is informational only and does not represent an “approved tool list”, nor does it represent an endorsement of any particular tool. The purpose is to provide examples of tools being used across the Agency and to help projects and centers decide what tools to consider.