Mike Shuo-Wei Chen scite author profile

Neuromorphic hardware implementation of Boltzmann Machine using a network of stochastic neurons can allow non-deterministic polynomial-time (NP) hard combinatorial optimization problems to be efficiently solved. Efficient implementation of such Boltzmann Machine with simulated annealing desires the statistical parameters of the stochastic neurons to be dynamically tunable, however, there has been limited research on stochastic semiconductor devices with controllable statistical distributions. Here, we demonstrate a reconfigurable tin oxide (SnOx)/molybdenum disulfide (MoS2) heterogeneous memristive device that can realize tunable stochastic dynamics in its output sampling characteristics. The device can sample exponential-class sigmoidal distributions analogous to the Fermi-Dirac distribution of physical systems with quantitatively defined tunable “temperature” effect. A BM composed of these tunable stochastic neuron devices, which can enable simulated annealing with designed “cooling” strategies, is conducted to solve the MAX-SAT, a representative in NP-hard combinatorial optimization problems. Quantitative insights into the effect of different “cooling” strategies on improving the BM optimization process efficiency are also provided.

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A 12-Bit 1.6, 3.2, and 6.4 GS/s 4-b/Cycle Time-Interleaved SAR ADC With Dual Reference Shifting and Interpolation

Nam

Hassanpourghadi

Zhang

et al. 2018

IEEE J. Solid-State Circuits

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A Calibration-Free 800 MHz Fractional-N Digital PLL With Embedded TDC

Chen¹,

Su²,

Mehta³

2010

IEEE J. Solid-State Circuits

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