SQFD Software Quality Function Deployment - Examples

1. SQFDSoftware Quality Function Deployment - Examples • Quality (even more than productivity) is the key issue of the 1990’s • Paper examines how QFD (the implementation vehicle for TQM - Total Quality Management) is being applied by major software vendors (MSV) ref: S. Haag, M.K. Raja,and L.L. Schkade: “Quality,” CACM, Jan. 1996, vol.39, no.1, pp. 42-49.

2. SQFD: Software Quality Function Deployment • What is it?Front-end requirements solicitation technique for quantifiably soliciting and defining critical customer requirements. It’s an adaptation A-1 matrix (House of Quality) technique used in traditional QFD.

3. SQFD: a five step process 2. The requirements are converted to technical and measurable statements of the software product. • SQFD 1. Customer requirements are solicited and recorded. 3. Customers complete correlation matrix by identifying the strength of the relationship between the various customer requirements and the technical product specifications. 4. Based on surveys, the priorities for the stated customer requirements are developed. 5. The technical product specification priorities are developed by summing the results of multiplying the customer requirements and technical product specs.

4. Done in reasonable time Easily imple- mented Generate customer interest 2 1 4 6 9 9 144 3 8 8 144 8 6 8 7 63 9 9 6 216 5 209 197 185 Technical Product Specifications SQFD: Example Assignment #2 Customer Reqmt Priorities Customer Reqmts 1. On-line help 2. Merge with valve catalog 3. Incorporate ASME standards library 4. Regular well-defined release strategy 6 7 3 9

5. Table 1. Impact of SQFD on factors necessary for developing improved computer-based information systems Mean SQFD Rating Factor (by rank*) 1. Improved user involvement 2. Improved management support and involvement 3. Better trained user and management personnel 4. Technique to shorten SDLC 5. Methods which integrate techniques and tools 6. Better trained systems personnel 7. Increased use of automated tools 8. Improved project development technique 9. Improved cost/benefit analysis techniques 10. Improved computer hardware technology 4.60 4.40 3.20 4.00 2.80 3.60 2.80 4.40 3.80 3.60 *These are the 10 most important factors as determined by Necco et al. [1] from most important (Improved user involvement) to least important (Improved computer hardware technology).

6. Table 4. Projects by development type Development Type Percentage New Upgrade Proprietary Enhancement Not applicable Correction of a deficiency Standard maintenance 40.0 34.2 14.3 8.6 2.9 0.0 0.0

7. Table 5. Comparison of results achieved between traditional approaches and SQFD Mean SQFD Rating Mean Traditional Rating Result Achieved Communication satisfactory with technical personnel Communication satisfactory with users User requirements met Communication satisfactory with management Systems developed within budget Systems easy to maintain Systems developed on time Systems relatively error-free Systems easy to modify Programming time reduced Testing time reduced Documentation consistent and complete 4.09 4.06 4.00 3.88 3.26 3.42 3.18 3.95 3.58 3.70 3.29 3.87 3.7 3.6 3.6 3.4 3.4 3.4 3.3 3.3 3.3 3.2 3.0 2.7