General Methodology for Soft-Error-Aware Power Optimization Using Gate Sizing

Dabiri, Foad; Nahapetian, Ani; Massey, Tammara; Potkonjak, Miodrag; Sarrafzadeh, Majid

doi:10.1109/tcad.2008.2003268

Cited by 22 publications

(7 citation statements)

References 32 publications

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“…Due to the current technology scaling trends (encompassing shrinking feature sizes, lower supply voltages, smaller node capacitances, etc. ), digital designs are becoming more susceptible to transient faults which originate from radiation-induced particle hits, resulting from radioactive decay or cosmic rays [3]- [5]. A low-energy particle, which had no effect on a circuit before, can now flip the state of a storage node.…”

Section: Introductionmentioning

confidence: 99%

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Soft Error Reliability Improvement of Digital Circuits by Exploiting a Fast Gate Sizing Scheme

2019

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Due to the reduction in device feature size and supply voltage, achieving soft error reliability in sub-micrometer digital circuits is becoming extremely challenging. We consider the problem of choosing the gate sizes in a combinational logic circuit in order to minimize the soft error rate (SER) of the circuit. This problem can be solved using the heuristic as well as the greedy-based approaches for small-size problems; however, when the circuit size increases, the computational time grows exponentially, and hence, the previous methods become impractical. This paper proposes a novel technique for soft error tolerant design of largescale combinational circuits using a cone-oriented gate sizing. Circuit partitioning is used to split the circuit into a set of small sub-circuits. The gates of sub-circuits are resized, such that the entire circuit SER is reduced based on a new soft error descriptor metric. The proposed cone-oriented gate sizing framework is used for selective gate sizing, leading up to 31% SER reduction with less than 17% area overhead when applied to large-scale benchmarks. The results also show that the proposed method is 21% more efficient and up to 292 times faster when compared with that obtained using a similar work based on the sensitive-based gate sizing scheme.

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Section: Introductionmentioning

confidence: 99%

“…The simplest yet effective method of soft error hardening techniques is gate sizing. Gate sizing is a technique for optimizing circuits parameters such as performance, power and also reliability challenges like soft errors [1], [5], [14]. In this technique, the sizing of a gate (i.e.…”

Section: Introductionmentioning

confidence: 99%

Soft Error Reliability Improvement of Digital Circuits by Exploiting a Fast Gate Sizing Scheme

2019

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“…Node engineering [10], gate sizing [17], guard ring [20], and negative feedback [19] effects are studied extensively. System-level techniques mostly include error detection and correction code technique, which have been utilized in memory [3].…”

Section: Soft-error and Latch-hardening Methodsmentioning

confidence: 99%

Soft-error hardened redundant triggered latch

Alidash

Sayedi

Oklobdzija

2012

2012 4th Asia Symposium on Quality Electronic Design (ASQED)

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This paper presents a soft error hardened latch suitable for reliable operation. The proposed circuit is aimed to tackle the particle hit effect on the internal nodes, external logic, as well as the pulse generator circuit. The hardening method is based on redundancy to protect internal nodes and filter out transients resulted from combinational logic. It also uses redundant clocking technique which results in more robustness. The circuit is designed in 90nm CMOS technology and simulated with the HSPICE. Simulation results indicate its lower-power and -delay, and ability to recover from single particle strike on internal and clock nodes, and input transient tolerance up to 120ps.

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“…Therefore, the factors that have very slight or similar effect on all logic gates can be neglected. As described in [7], the SER of a circuit due to SETs can be computed according to (2). SER= ΣSER(Gi)…”

Section: Vulnerability Identificationmentioning

confidence: 99%

A Review on Soft Errors and Different Fault Tolerance Techniques

Gadekar¹,

Patil²

2017

International Journal of Advanced Research in Computer and Comm

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With fabrication technology reaching nanolevels, systems are becoming more prone to manufacturing defects with higher susceptibility to soft errors. Soft errors caused by particles strike in combinational parts of digital circuits are a major concern in the design of reliable circuits. Several techniques have been presented to protect combinational logic and reduce the overall circuit Soft Error Rate (SER). Such techniques, however, typically come at the cost of significant area and performance overheads. A comprehensive review on the soft error generation and different fault tolerance techniques used, are presented in this study. After the overall concepts and general ideas are presented, representative works as well as new progress in the techniques are covered and discussed in detail.

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General Methodology for Soft-Error-Aware Power Optimization Using Gate Sizing

Cited by 22 publications

References 32 publications

Soft Error Reliability Improvement of Digital Circuits by Exploiting a Fast Gate Sizing Scheme

Soft Error Reliability Improvement of Digital Circuits by Exploiting a Fast Gate Sizing Scheme

Soft-error hardened redundant triggered latch

A Review on Soft Errors and Different Fault Tolerance Techniques

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