Impact and Mitigation of Sense Amplifier Aging Degradation Using Realistic Workloads

Daniël Kraak; Mottaqiallah Taouil; Innocent Agbo; Said Hamdioui; Pieter Weckx; Francky Catthoor; Stefan Cosemans

doi:10.1109/TVLSI.2017.2746798

Impact and Mitigation of Sense Amplifier Aging Degradation Using Realistic Workloads

Daniël Kraak, Mottaqiallah Taouil, Innocent Agbo, Said Hamdioui, Pieter Weckx, Francky Catthoor, Stefan Cosemans

Computer Engineering

Research output: Contribution to journal › Article › Scientific › peer-review

17 Citations (Scopus)

Abstract

Designers typically add design margins to compensate for time-zero variability (due to process variation) and time-dependent (due to, e.g., bias temperature instability) variability. These variabilities become worse with scaling, which leads to larger design margin requirements. As an alternative, mitigation schemes can be applied to counteract the variability. This paper investigates the impact of aging on the offset voltage of the memory's sense amplifier (SA). For the analysis, the degradation of the SAs in the L1 data and instruction caches of an ARM processor is quantified while using realistic workloads extracted from the SPEC CPU2006 Benchmark suite. Furthermore, the effect of our mitigation scheme, i.e., an online control circuit that balances the SA workload, is analyzed. The simulation results show that the mitigation scheme reduces the offset voltage degradation due to aging with up to 40% for the benchmarks, depending on the stress conditions (temperature, voltage, and workload).

Original language	English
Pages (from-to)	3464-3472
Number of pages	9
Journal	IEEE Transactions on Very Large Scale Integration (VLSI) Systems
Volume	25
Issue number	12
DOIs	https://doi.org/10.1109/TVLSI.2017.2746798
Publication status	Published - 2017

Keywords

Aging
memory
mitigation
offset voltage
sense amplifier (SA)
static random-access memory
time-dependent variability
time-zero variability

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10.1109/TVLSI.2017.2746798

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title = "Impact and Mitigation of Sense Amplifier Aging Degradation Using Realistic Workloads",

abstract = "Designers typically add design margins to compensate for time-zero variability (due to process variation) and time-dependent (due to, e.g., bias temperature instability) variability. These variabilities become worse with scaling, which leads to larger design margin requirements. As an alternative, mitigation schemes can be applied to counteract the variability. This paper investigates the impact of aging on the offset voltage of the memory's sense amplifier (SA). For the analysis, the degradation of the SAs in the L1 data and instruction caches of an ARM processor is quantified while using realistic workloads extracted from the SPEC CPU2006 Benchmark suite. Furthermore, the effect of our mitigation scheme, i.e., an online control circuit that balances the SA workload, is analyzed. The simulation results show that the mitigation scheme reduces the offset voltage degradation due to aging with up to 40% for the benchmarks, depending on the stress conditions (temperature, voltage, and workload).",

keywords = "Aging, memory, mitigation, offset voltage, sense amplifier (SA), static random-access memory, time-dependent variability, time-zero variability",

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year = "2017",

doi = "10.1109/TVLSI.2017.2746798",

language = "English",

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T1 - Impact and Mitigation of Sense Amplifier Aging Degradation Using Realistic Workloads

AU - Kraak, Daniël

AU - Taouil, Mottaqiallah

AU - Agbo, Innocent

AU - Hamdioui, Said

AU - Weckx, Pieter

AU - Catthoor, Francky

AU - Cosemans, Stefan

PY - 2017

Y1 - 2017

N2 - Designers typically add design margins to compensate for time-zero variability (due to process variation) and time-dependent (due to, e.g., bias temperature instability) variability. These variabilities become worse with scaling, which leads to larger design margin requirements. As an alternative, mitigation schemes can be applied to counteract the variability. This paper investigates the impact of aging on the offset voltage of the memory's sense amplifier (SA). For the analysis, the degradation of the SAs in the L1 data and instruction caches of an ARM processor is quantified while using realistic workloads extracted from the SPEC CPU2006 Benchmark suite. Furthermore, the effect of our mitigation scheme, i.e., an online control circuit that balances the SA workload, is analyzed. The simulation results show that the mitigation scheme reduces the offset voltage degradation due to aging with up to 40% for the benchmarks, depending on the stress conditions (temperature, voltage, and workload).

AB - Designers typically add design margins to compensate for time-zero variability (due to process variation) and time-dependent (due to, e.g., bias temperature instability) variability. These variabilities become worse with scaling, which leads to larger design margin requirements. As an alternative, mitigation schemes can be applied to counteract the variability. This paper investigates the impact of aging on the offset voltage of the memory's sense amplifier (SA). For the analysis, the degradation of the SAs in the L1 data and instruction caches of an ARM processor is quantified while using realistic workloads extracted from the SPEC CPU2006 Benchmark suite. Furthermore, the effect of our mitigation scheme, i.e., an online control circuit that balances the SA workload, is analyzed. The simulation results show that the mitigation scheme reduces the offset voltage degradation due to aging with up to 40% for the benchmarks, depending on the stress conditions (temperature, voltage, and workload).

KW - Aging

KW - memory

KW - mitigation

KW - offset voltage

KW - sense amplifier (SA)

KW - static random-access memory

KW - time-dependent variability

KW - time-zero variability

U2 - 10.1109/TVLSI.2017.2746798

DO - 10.1109/TVLSI.2017.2746798

M3 - Article

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JO - IEEE Transactions on Very Large Scale Integration (VLSI) Systems

JF - IEEE Transactions on Very Large Scale Integration (VLSI) Systems

IS - 12

ER -

Impact and Mitigation of Sense Amplifier Aging Degradation Using Realistic Workloads

Abstract

Keywords

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