Energy efficient fJ/spike LTS e-Neuron using 55-nm node

Ferreira, Pietro Maris; Carvalho, Nathan De; Klisnick, Geoffroy; Benlarbi-Delaï, Aziz

doi:10.1145/3338852.3339852

Cited by 6 publications

(25 citation statements)

References 17 publications

(35 reference statements)

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“…This paper extends the work already presented in [13] by proposing: (a) a neuromorphic analog spiking processor (NASP) using both eNeurons in a spiking-modulator architecture; and (b) a varicap-based version for both eNeuron to reduce silicon area. Proposed NASP aims at artificial cochlea applications coding an input-signal amplitude in f spike inspired by DR modulators.…”

Section: Introductionmentioning

confidence: 70%

“…The authors have focused on the analog-circuit design of the two cortex neuron models, named eNeuron [13]. Both eNeurons are part of the six most fundamental classes of firing patterns observed in the mammalian neocortex [14].…”

Section: Introductionmentioning

confidence: 99%

“…Proposed NASP aims at artificial cochlea applications coding an input-signal amplitude in f spike inspired by DR modulators. The twooutput spiking-modulated signal in NASP is also capable to estimate the signal derivative sign from f spike variation over time combining both Izhikevich's neuron model proposed in [13]. Post-layout simulations (PLS) are carried out to highlight both eNeuron figure-of-merits, and to ensure lowpower and low-silicon area with varicap-based version.…”

Section: Introductionmentioning

confidence: 99%

“…In addition, it highlights the principles of weak inversion model of saturated MOS transistors. Section 3 proposes the neuromorphic analog spiking processor implementation and analyses recent works dealing with energy efficient circuits [13] and [18]. The proposed NASP is designed using 55 nm technology node exploring highdensity varicap and low supply voltage ( $ 200 mV).…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Neuromorphic analog spiking-modulator for audio signal processing

Ferreira

Nebhen

Klisnick

et al. 2020

Analog Integr Circ Sig Process

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While CMOS scaling is currently reaching its limits in power dissipation and circuit density, the analogy between biology and silicon is emerging as a solution to ultra-low-power signal processing. Urgent applications involving artificial vision and audition, including intelligent sensing, appeal original energy efficient and ultra-miniaturized silicon-based solutions. While state-of-the-art is focusing on digital-oriented solutions, this paper proposes a neuromorphic analog signal processor using Izhikevich-based artificial neurons in an analog spiking modulator. A varicap-based artificial neuron is explored reducing the silicon area to 98:6 lm 2 and the substrate leakage to a 1:95 fJ=spike efficiency. Post-layout simulation results are presented to investigate the high-resolution, high-speed, and full-scale dynamic range for audio signal processing applications. The proposal demonstrates a 9 bits spiking-modulator resolution, a maximum of 8 fJ=conv efficiency, and a root-mean-square error of 0:63 mV RMS .

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Section: Introductionmentioning

confidence: 70%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Neuromorphic analog spiking-modulator for audio signal processing

Ferreira

Nebhen

Klisnick

et al. 2020

Analog Integr Circ Sig Process

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“…In order to choose the proper circuit implementation of the neuron, which has more similar voltages to ones shown in Figure 1, different types of implemented state-of-the-art eneurons analysed mathematically [8,10,[15][16][17]. Because AHneuron circuit has two main node voltages which determines the circuit behaviour and two critical differential equations, AH neuron has more compatibility with mathematical modelling of Equations ( 1)-( 3) among all other e-neuron circuit implementations.…”

Section: Ah Neuronmentioning

confidence: 99%

A comparative study between E‐neurons mathematical model and circuit model

Daliri

Ferreira

Klisnick

et al. 2021

IET Circuits, Devices & Syst

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The basic concepts and techniques involved in the development and analysis of mathematical models for individual neurons are reviewed. A spiking neuron model uses differential equations to represent various neuronal activities that have more compatibility with circuit criteria and are chosen for developing a comparative study with circuit models. For this comparison, a new fully differential neuron that uses the fully differential aspects to reach more balanced differential equations to mathematical model is presented. This comparative study of the circuit model and a neuron mathematical model provides a quantitative understanding of the challenges between mathematical models and microelectronic circuit design criteria.

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Physics Informed Spiking Neural Networks: Application to Digital Predistortion for Power Amplifier Linearization

Wang

Ferreira²,

Benlarbi-Delaï

2023

IEEE Access

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Recently, new emerging techniques of neuromorphic hardware render spiking neuron networks (SNN) promising as an energy-efficient solution for artificial intelligence (AI). With the idea of physics informed neural network, the structure can be simple while training data can be light. However its application in RF telecommunication system is still challenging. This paper, as the first time in the literatures, proposes a solution of SNN-based digital predistortion (SNN-DPD) for linearization of RF transmitters, such as power amplifiers (PA). A two-layer SNN is deployed in frequency domain to process the spectrum of the stimulus for a predistorted signal. The proposed technique is experimentally validated on a test bench with a real PA of different bias voltages. We also test the proposed SNN-DPD for multi-band linearization. The proposed method reaches the best performance of traditional DPD methods while owing advantages of the SNN, such as low power consumption and good biomimicry for AI.

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Energy efficient fJ/spike LTS e-Neuron using 55-nm node

Cited by 6 publications

References 17 publications

Neuromorphic analog spiking-modulator for audio signal processing

Neuromorphic analog spiking-modulator for audio signal processing

A comparative study between E‐neurons mathematical model and circuit model

Physics Informed Spiking Neural Networks: Application to Digital Predistortion for Power Amplifier Linearization

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