Replica Bit-Line Technique for Internal Refresh in Logic-Compatible Gain-Cell Embedded DRAM

Robert Giterman, Odem Harel
ELSEVIER SCI LTD, 2020
Article

Embedded memories, mostly implemented with static random access memory (SRAM), dominate the area and power of integrated circuits. Gain-cell embedded DRAM (GC-eDRAM) is an alternative to SRAM due to its high density, low power consumption, and two-ported functionality. However, GC-eDRAM requires periodic refresh cycles to maintain its data due to its dynamic storage mechanism. The refresh operation is typically handled at a memory controller level, resulting in an energy overhead and limited memory availability. In this paper, we propose a new approach for the realization of the refresh operation using an internal refresh mechanism, which supports an efficient row-wise refresh operation within a single clock cycle, providing 100% write access availability at a reduced refresh latency and power. An 8 kbit GC-eDRAM array with integrated internal refresh and replica bit-line was implemented, demonstrating up-to 30% reduced refresh latency and 65% reduced read energy at a low cost of 2.4% array area overhead, compared to a conventional GC-eDRAM array without internal refresh capabilities.

À propos de ce résultat

Cette page est générée automatiquement et peut contenir des informations qui ne sont pas correctes, complètes, à jour ou pertinentes par rapport à votre recherche. Il en va de même pour toutes les autres pages de ce site. Veillez à vérifier les informations auprès des sources officielles de l'EPFL.

Concepts associés

Chargement

Publications associées

Chargement

Robert Giterman, Odem Harel
ELSEVIER SCI LTD, 2020
Article

Résumé

Official source

https://infoscience.epfl.ch/record/278768?ln=fr

À propos de ce résultat

Concepts associés (10)

Concepts associés

Chargement

Publications associées (4)

Chargement

Afficher plus

Publications associées

Chargement

Static Random Access Memory

thumb|Une SRAM de 1999. La mémoire vive statique (ou SRAM de l'anglais Static Random Access Memory) est un type de mémoire vive utilisant des bascules pour mémoriser les données. Mais contrairement à

Contrôleur mémoire

thumb|Contrôleur mémoire DDR2 (détail d'une carte mère). Un contrôleur mémoire est un contrôleur (un circuit électronique spécialisé dans la gestion d'une composante d'un ordinateur) chargé de tradui

Mémoire vive

La mémoire vive, parfois abrégée avec l'acronyme anglais RAM (Random Access Memory), est la mémoire informatique dans laquelle peuvent être enregistrées les informations traitées par un appareil inf

Variability-Aware Design Space Exploration of Embedded Memories

Andreas Peter Burg, Shrikanth Ganapathy, Georgios Karakonstantis

With scaling of process technologies and worsening of process variations, embedded memories are susceptible to a large number of failure mechanisms making it hard to achieve high yield. In this paper, by bringing together architecture and circuit-level exploration tools, we analyse the impact of process variations on static random access memory (SRAM) cell stability and determine the impact of SRAM failures on memory functional yield. We then detail the importance of repair mechanisms such as error correcting codes (ECC) and redundancy on improving yield subject to constraints set on power and area. Finally, we show that a design paradigm orthogonal to traditional repair mechanisms involving redefinition of the yield criterion by accepting memories with failures is a promising candidate for improving yield without incurring additional overheads.

2014

Chargement

Challenges of Memory Management on Modern NUMA Systems

Mohammad Dashti Rahmat Abadi, Baptiste Joseph Eustache Lepers

The latency of memory access times is hence non-uniform, because it depends on where the request originates and where it is destined to go. Such systems are referred to as nonuniform memory access (or NUMA). Current x86 NUMA systems are cache coherent (called ccNUMA), which means programs can transparently access memory on local and remote nodes without changes to the code or special operating system support. Experiments have shown that Congestion happens when the rate of requests to memory controllers or the rate of traffic over interconnects is too high, which causes excessive delays for memory accesses. It can be alleviated by balancing the traffic among multiple memory controllers and interconnect links. The other factor of NUMA performance is locality, which is what previous NUMA algorithms have focused on. As NUMA systems grow and the number of cores issuing memory requests increases, NUMA effects will continue being a concern. Carrefour demonstrates a collection of techniques that effectively reduce these concerns.

Assoc Computing Machinery2015

Chargement

DynaBurst: Dynamically Assemblying DRAM Bursts over a Multitude of Random Accesses

Mikhail Asiatici, Paolo Ienne

The effective bandwidth of the FPGA external memory, usually DRAM, is extremely sensitive to the access pattern. Nonblocking caches that handle thousands of outstanding misses (miss-optimized memory systems) can dynamically improve bandwidth utilization whenever memory accesses are irregular and application-specific optimizations are not available or are too costly in terms of design time. However, they require a memory controller with wide data ports on the FPGA side and cannot fully take advantage of the memory interfaces with multiple narrow ports that are common on SoC FPGAs. Moreover, as their scope is limited to single memory requests, the access pattern they generate may cause frequent DRAM row conflicts, which further reduce DRAM bandwidth. In this paper, we propose DynaBurst, an extension of miss-optimized memory systems that generates variable-length bursts to the memory controller. By making memory accesses locally more sequential, we minimize the number of DRAM row conflicts, and by adapting the burst length on a per-request basis we minimize bandwidth wastage. On a multiple, narrow-ported DDR3 controller, we provide 28% geometric mean and up to 3.4x speedup compared to a traditional nonblocking cache of the same area, while the prior single-request approach would not have been cost-effective. On a controller with a single, wide port, we can further improve the performance of miss-optimized systems by up to 2.4 x.

IEEE2019

Chargement

Afficher plus