DEDICATION. CONTRIBUTING AUTHORS. PREFACE. 1. INTRODUCTION. 2. RADIATION EFFECTS IN INTEGRATED CIRCUITS. 2.1 RADIATION ENVIROMENT OVERVIEW. 2.2 RADIATION EFFECTS IN INTEGRATED CIRCUITS. 2.2.1 SEU Classification. 2.3 PECULIAR EFFECTS IN SRAM-BASED FPGAS. 3. SINGLE EVENT UPSET (SEU) MITIGATION TECHNIQUES. 3.1 DESIGN-BASED TECHNIQUES. 3.1.1 Detection Techniques. 3.1.2 Mitigation Techniques. 3.1.2.1 Full Time and Hardware Redundancy. 3.1.2.2 Error Correction and Detection Codes. 3.1.2.3 Hardened Memory Cells. 3.2 EXAMPLES OF ...
Read More
DEDICATION. CONTRIBUTING AUTHORS. PREFACE. 1. INTRODUCTION. 2. RADIATION EFFECTS IN INTEGRATED CIRCUITS. 2.1 RADIATION ENVIROMENT OVERVIEW. 2.2 RADIATION EFFECTS IN INTEGRATED CIRCUITS. 2.2.1 SEU Classification. 2.3 PECULIAR EFFECTS IN SRAM-BASED FPGAS. 3. SINGLE EVENT UPSET (SEU) MITIGATION TECHNIQUES. 3.1 DESIGN-BASED TECHNIQUES. 3.1.1 Detection Techniques. 3.1.2 Mitigation Techniques. 3.1.2.1 Full Time and Hardware Redundancy. 3.1.2.2 Error Correction and Detection Codes. 3.1.2.3 Hardened Memory Cells. 3.2 EXAMPLES OF SEU MITIGATION TECHNIQUES IN ASICS. 3.3 EXAMPLES OF SEU MITIGATION TECHNIQUES IN FPGAS. 3.3.1 Antifuse based FPGAs. 3.3.2 SRAM-based FPGAs. 3.3.2.1 SEU Mitigation Solution in high-level description. 3.3.2.2 SEU Mitigation Solutions at the Architectural level. 3.3.2.3 Recovery technique. 4. ARCHITECTURAL SEU MITIGATION TECHNIQUES. 5. HIGH-LEVEL SEU MITIGATION TECHNIQUES. 5.1 TRIPLE MODULAR REDUNDANCY TECHNIQUE FOR FPGAS. 5.2 SCRUBBING. 6. TRIPLE MODULAR REDUNDANCY (TMR) ROBUSTNESS. 6.1 TEST DESIGN METHODOLOGY. 6.2 FAULT INJECTION IN THE FPGA BITSTREAM. 6.3 LOCATING THE UPSET IN THE DESIGN FLOORPLANNING. 6.3.1 Bit column location in the matrix. 6.3.2 Bit row location in the matrix. 6.3.3 Bit location in the CLB. 6.3.4 Bit Classification. 6.4 FAULT INJECTION RESULTS. 6.5 THE 'GOLDEN' CHIP APPROACH. 7. DESIGNING AND TESTING A TMR MICRO-CONTROLLER. 7.1 AREA AND PERFORMANCE RESULTS. 7.2 TMR 8051 MICRO-CONTROLLER RADIATION GROUND TEST RESULTS. 8. REDUCING TMR OVERHEADS: PART I. 8.1 DUPLICATION WITH COMPARISON COMBINED WITH TIME REDUNDANCY. 8.2 FAULT INJECTION IN THE VHDL DESCRIPTION. 8.3 AREA AND PERFORMANCE RESULTS. 9. REDUCING TMR OVERHEADS: PART II. 9.1 DWC-CED TECHNIQUE IN ARITHMETIC-BASED CIRCUITS. 9.1.1 Using CEDbased on hardware redundancy. 9.1.2 Using CED based on time redundancy. 9.1.3 Choosing the most appropriated CED block. 9.1.3.1 Multipliers. 9.1.3.2 Arithmetic and Logic Unit (ALU). 9.1.3.3 Digital FIR Filter. 9.1.4 Fault Coverage Results. 9.1.4 Area and Performance Results. 9.2 DESIGNING DWC-CED TECHNIQUE IN NON-ARITHMETIC-BASED CIRCUITS. 10. FINAL REMARKS. REFERENCES.
Read Less
Add this copy of Fault-Tolerance Techniques for Sram-Based FPGAs to cart. $103.32, new condition, Sold by Ingram Customer Returns Center rated 5.0 out of 5 stars, ships from NV, USA, published 2010 by Springer.
Add this copy of Fault-Tolerance Techniques for Sram-Based Fpgas to cart. $9.99, good condition, Sold by HPB-Red rated 5.0 out of 5 stars, ships from Dallas, TX, UNITED STATES, published 2006 by Springer.
Choose your shipping method in Checkout. Costs may vary based on destination.
Seller's Description:
Good. Connecting readers with great books since 1972! Used textbooks may not include companion materials such as access codes, etc. May have some wear or writing/highlighting. We ship orders daily and Customer Service is our top priority!
Add this copy of Faulttolerance Techniques for Srambased Fpgas Frontiers to cart. $81.50, like new condition, Sold by Paperbackshop rated 5.0 out of 5 stars, ships from Bensenville, IL, UNITED STATES, published 2006 by Springer Us.
Choose your shipping method in Checkout. Costs may vary based on destination.
Seller's Description:
Fine. Used-Like New Book. Shipped from UK in 4 to 14 days. Established seller since 2000. Please note we cannot offer an expedited shipping service from the UK.