/MLP_NeuroSim_V3.0

Primary LanguageC++

MLP simlator (+NeuroSim) V3.0

The MLP+NeuroSim framework was developed by Prof. Shimeng Yu's group (Georgia Institute of Technology). The model is made publicly available on a non-commercial basis. Copyright of the model is maintained by the developers, and the model is distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 International Public License

This is the released version 3.0 (Mar. 1st, 2019) for the tool. This version extends the algoritihm weights from (0,1) in V2.0 to (-1,1) in V3.0. Besides, more training algorithms such as momentum method, Adagrad, RMSprop, Adam are added. The digital eNVMs (e.g. STT-MRAM) based synaptical array supports parallel read-out is introduced to reduce latency.

Developers: Pai-Yu Chen, Xiaochen Peng and Yandong Luo.

If you have logistic questions or comments on the model, please contact Prof. Shimeng Yu (shimeng.yu@ece.gatech.edu), and if you have technical questions or comments, please contact Xiaochen Peng (xpeng76@gatech.edu) or Yandong Luo (yluo310@gatech.edu).

This research is supported by NSF CAREER award, NSF/SRC E2CDA program, and ASCENT, one of the SRC/DARPA JUMP centers.

If you use the tool or adapt the tool in your work or publication, you are required to cite the following reference:

P.-Y. Chen, X. Peng, S. Yu, ※NeuroSim+: An integrated device-to-algorithm framework for benchmarking synaptic devices and array architectures,§ IEEE International Electron Devices Meeting (IEDM), 2017, San Francisco, USA.

File lists

  1. MATLAB fitting script: nonlinear_fit.m
  2. Nonlinearity-to-A table: Documents/Nonlinearity-NormA.htm
  3. MNIST data: MNIST_data.zip
  4. Manual: Documents/Manual.pdf
  5. MLP Simulator (+NeuroSim): the rest of the files

Installation steps (Linux)

  1. Get the tool from GitHub
git clone https://github.com/neurosim/MLP_NeuroSim_V3.0.git
  1. Extract MNIST_data.zip to it’s current directory
unzip MNIST_data.zip
  1. Compile the codes
make

For the usage of this tool, please refer to the manual.

Updates on Jan. 20th, 2020:

  1. In sub-array, use linear-region transistor in MUX, Switch Matrix and across-transistor in array.
  2. Calibrate FinFET technology library (<20nm)

References related to this tool

  1. P.-Y. Chen, S. Yu, "Technological benchmark of analog synaptic devices for neuro-inspired architectures," IEEE Design & Test, 2019.
  2. P.-Y. Chen, X. Peng, S. Yu, “NeuroSim: A circuit-level macro model for benchmarking neuro-inspired architectures in online learning,” IEEE Trans. CAD,vol. 37, no. 12, pp. 3067-3080, 2018.
  3. P.-Y. Chen, X. Peng, S. Yu, "NeuroSim+: An Integrated Device-to-Algorithm Framework for Benchmarking Synaptic Devices and Array Architectures," IEEE International Electron Devices Meeting (IEDM), 2017, San Francisco, USA.
  4. P.-Y. Chen, X. Peng, S. Yu, "System-level benchmark of synaptic device characteristics for neuro-inspired computing," IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S) 2017, San Francisco, USA.
  5. P.-Y. Chen, S. Yu, "Partition SRAM and RRAM based synaptic arrays for neuro-inspired computing,*§ IEEE International Symposium on Circuits and Systems (ISCAS)", 2016, Montreal, Canada.