Title :
A multi-layered methodology for defect-tolerance of datapath modules in processors
Author :
Hsunwei Hsiung ; Gupta, Sandeep K.
Author_Institution :
Ming Hsieh Dept. of Electr. Eng., Univ. of Southern California, Los Angeles, CA, USA
Abstract :
Technology scaling increases circuits´ susceptibility to manufacturing imperfections and dramatically decreases processor yields. Traditional defect-tolerance approaches add explicit redundant circuitry to improve yield and hence are very expensive for datapath modules in processors. We propose a multi-layered methodology to develop new and efficient defect-tolerance approaches for processors. Specifically, we develop a microarchitecture layer approach for arithmetic logic units (ALU), a circuit layer approach for multipliers, and an ISA layer approach for floating-point units (FPU). We demonstrate that our three approaches improve performance-per-fabricated-die-area of a modern processor core by 3.5%, 2.4%, and at least 9%, and hence collectively provide significant gains.
Keywords :
floating point arithmetic; logic circuits; microprocessor chips; multiplying circuits; ALU; FPU; ISA layer approach; arithmetic logic units; circuit layer approach; datapath modules; defect-tolerance approaches; explicit redundant circuitry; floating-point units; manufacturing imperfections; microarchitecture layer approach; multilayered methodology; multipliers; performance-per-fabricated-die-area; processor yields; technology scaling; Adders; Benchmark testing; Delays; Microarchitecture; Multiplexing; Program processors; Redundancy;
Conference_Titel :
VLSI Test Symposium (VTS), 2015 IEEE 33rd
Conference_Location :
Napa, CA
DOI :
10.1109/VTS.2015.7116252
