Litcius/Paper detail

64-kB 65-nm GC-eDRAM With Half-Select Support and Parallel Refresh Technique

Odem Harel, Emmanuel Nieto Casarrubias, Manuel Eggimann, Frank K. Gürkaynak, Luca Benini, Adam Teman, Robert Giterman, Andreas Burg

2022IEEE Solid-State Circuits Letters12 citationsDOIOpen Access PDF

Abstract

Gain-cell embedded DRAM (GC-eDRAM) is an attractive alternative to traditional 6T SRAM, as it offers higher density, lower leakage power and two-ported functionality. However, it refresh requirement also results in power consumption and memory access limitations. In this paper, we present a GCeDRAM architecture designed to overcome the refresh disadvantages using a novel technique for improving the availability of the memory. In addition, by using a read-before-write mechanism, half-select is supported. The macro avoids the need for supply boosting by employing 3T-1C bitcells, and also integrates a replica bit-line for optimal access timing to improve performance and power consumption. A 64kB GC-eDRAM macro was fabricated in a 65nm process technology, providing a 40% area reduction compared to a 6T SRAM cell, while achieving a 99.99% bit yield with a 16 ls retention time.

Topics & Concepts

DramStatic random-access memoryComputer sciencePower consumptionMacroEmbedded systemReplicaData retentionMemory refreshComputer hardwarePower (physics)Semiconductor memoryComputer memoryComputer securityQuantum mechanicsVisual artsPhysicsProgramming languageArtLow-power high-performance VLSI designSemiconductor materials and devicesAdvanced Memory and Neural Computing