Technology advancements have enabled the integration of large on-die embedded DRAM (eDRAM) caches. eDRAM is significantly denser than traditional SRAMs, but must be periodically refreshed to retain data. Like SRAM, eDRAM is susceptible to device variations, which play a role in determining refresh time for eDRAM cells. Refresh power potentially represents a large fraction of overall system power, particularly during low-power states when the CPU is idle. Future designs need to reduce cache power without incurring the high cost of flushing cache data when entering low-power states.In this paper, we show the significant impact of variations on refresh time and cache power consumption for large eDRAM caches. We propose Hi-ECC, a technique that incorporates multibit error-correcting codes to significantly reduce refresh rate. Multi-bit error-correcting codes usually have a complex decoder design and high storage cost. Hi-ECC avoids the decoder complexity by using strong ECC codes to identify and disable sections of the cache with multi-bit failures, while providing efficient single-bit error correction for the common case. Hi-ECC includes additional optimizations that allow us to amortize the storage cost of the code over large data words, providing the benefit of multi-bit correction at same storage cost as a single-bit error-correcting (SECDED) code (2% overhead). Our proposal achieves a 93% reduction in refresh power vs. a baseline eDRAM cache without error correcting capability, and a 66% reduction in refresh power vs. a system using SECDED codes.
The state dependence of leakage can be exploited to obtain modest leakage savings in CMOS circuits. However, one can modify circuits considering state dependence and achieve larger savings. We identify a low leakage state and insert leakage control transistors only where needed. Leakage levels are on the order of 35% to 90% lower than those obtained by state dependence alone.
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