A Real-Time Error Detection (RTD) architecture and its use for reliability and post-silicon validation for F/F based memory arrays

This work proposes in-situ Real-Time Error Detection (RTD): embedding hardware in a memory array for detecting a fault in the array when it occurs, rather than when it is read. RTD breaks the serialization between data access and error-detection and, thus, it can speed-up the access-time of arrays that use in-line error-correction. The approach can also reduce the time needed to root-cause array related bugs during post-silicon validation and product testing. The paper introduces a two-dimensional error-correction scheme based on RTD and, also, presents a proactive error-correction method that combines RTD with demand-scrubbing. The work describes how to build RTD into a memory array with flip-flops to track in real-time the column-parity. A comparison of the proposed two-dimensional ECC scheme, as compared to single-error-correction-double-error-detection, shows that the RTD design has comparable error-detection-and-correction strength and, depending on the array dimensions and configuration, RTD reduces access time by 4% to 26% at an area and power overhead (negative is a reduction) between -7% to 33% and -42% to 86% respectively.Peer ReviewedPostprint (author's final draft

SRAM arrays with built-in parity computation for real-time error detection in cache tag arrays

This work proposes an SRAM array with built-in real-time error detection (RTD) capabilities. Each cell in the new RTD-SRAM array computes its part of the real-time parity of an SRAM array column on-the-fly. RTD based arrays detect a fault right away after it occurs, rather than when it is read. RTD, therefore, breaks the serialization between data access and error detection and, thus, it can speed-up the access-time of arrays that use on-the-fly error detection and correction. The paper presents an analysis and optimization of an RTD-SRAM and its application to a tag array. Compared to a state-of-the-art tag array protection, the evaluated scheme has comparable error detection and correction strength and, depending on the array dimensions, the access time is reduced by 5% to 18%, energy by 20% to 40% and area up to 30%.Peer ReviewedPostprint (author's final draft

2D error correction for F/F based arrays using in-situ Real-Time Error Detection (RTD)

This work proposes in-situ Real-Time Error Detection (RTD): embedding hardware in a memory array for detecting a fault in the array when it occurs, rather than when it is read. RTD breaks the serialization between data access and error detection and, thus, it can speed-up the access-time of arrays that use in-line error-detection and correction. The approach can also reduce the time needed to root-cause array related bugs during post-silicon validation and product testing. The paper presents how to build RTD into an array with flip-flops to track in real-time the column-parity and introduces a two-dimensional RTD based error-correction scheme. As compared to SECDED, the evaluated scheme has comparable error-detection and correction strength and, depending on the array dimensions, the access time is reduced by 8-24% at an area and power overhead between 12-53% and 21-42% respectively.Peer ReviewedPostprint (author's final draft