Char Khazanov scite author profile

Char Khazanov

3Publications

74Citation Statements Received

66Citation Statements Given

How they've been cited

140

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Rochester Institute of Technology

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Deep Positron: A Deep Neural Network Using the Posit Number System

Carmichael

Langroudi

Khazanov

et al. 2019

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The recent surge of interest in Deep Neural Networks (DNNs) has led to increasingly complex networks that tax computational and memory resources. Many DNNs presently use 16-bit or 32-bit floating point operations. Significant performance and power gains can be obtained when DNN accelerators support low-precision numerical formats. Despite considerable research, there is still a knowledge gap on how low-precision operations can be realized for both DNN training and inference. In this work, we propose a DNN architecture, Deep Positron, with posit numerical format operating successfully at ≤8 bits for inference. We propose a precision-adaptable FPGA soft core for exact multiply-and-accumulate for uniform comparison across three numerical formats, fixed, floating-point and posit. Preliminary results demonstrate that 8-bit posit has better accuracy than 8-bit fixed or floating-point for three different low-dimensional datasets. Moreover, the accuracy is comparable to 32-bit floatingpoint on a Xilinx Virtex-7 FPGA device. The trade-offs between DNN performance and hardware resources, i.e. latency, power, and resource utilization, show that posit outperforms in accuracy and latency at 8-bit and below.

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Performance-Efficiency Trade-off of Low-Precision Numerical Formats in Deep Neural Networks

Carmichael

Langroudi

Khazanov

et al. 2019

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Deep neural networks (DNNs) have been demonstrated as effective prognostic models across various domains, e.g. natural language processing, computer vision, and genomics. However, modern-day DNNs demand high compute and memory storage for executing any reasonably complex task. To optimize the inference time and alleviate the power consumption of these networks, DNN accelerators with low-precision representations of data and DNN parameters are being actively studied. An interesting research question is in how low-precision networks can be ported to edge-devices with similar performance as high-precision networks. In this work, we employ the fixed-point, floating point, and posit numerical formats at ≤8-bit precision within a DNN accelerator, Deep Positron, with exact multiply-and-accumulate (EMAC) units for inference. A unified analysis quantifies the trade-offs between overall network efficiency and performance across five classification tasks.Our results indicate that posits are a natural fit for DNN inference, outperforming at ≤8-bit precision, and can be realized with competitive resource requirements relative to those of floating point.

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Deep Positron: A Deep Neural Network Using the Posit Number System

Carmichael¹,

Langroudi²,

Khazanov³

et al. 2018

Preprint

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Char Khazanov

Deep Positron: A Deep Neural Network Using the Posit Number System

Performance-Efficiency Trade-off of Low-Precision Numerical Formats in Deep Neural Networks

Deep Positron: A Deep Neural Network Using the Posit Number System

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