This work investigates energy-efficient approximate computation for solving differential equations. It extends the analog computing techniques to a new paradigm: continuous-time hybrid computation, where both analog and digital circuits operate in continuous time. In this approach, the time intervals in the digital signals contain important information. Unlike conventional synchronous digital circuits, continuous-time digital signals offer the benefits of adaptive power dissipation and no quantization noise. Two prototype chips have been fabricated in 65 nm CMOS technology and tested successfully. The first chip is capable of solving nonlinear differential equations up to 4th order, and the second chip scales up to 16th order based on...
Equalization and channel decoding are “traditionally” two cascade processes at the receiver side of ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The slowdown of Moore's law, which has been the driving force of the electronics industry over the l...
Current digital computers are about to hit basic physical boundaries with respect to integration den...
Analog computing (AC) was the predominant form of computing up to the end of World War II. The inven...
With power increasingly becoming the dominant limiting factor for today's computing needs, the...
In the past 10 years computer architecture research has moved to more heterogeneity and less adheren...
Due to fundamental physical limitations, conventional digital circuits have not been able to scale a...
Thesis (Ph. D.)--Massachusetts Institute of Technology, School of Architecture and Planning, Program...
Emerging applications in the field of machine vision, deep learning and scientific simulation requir...
This work investigates signal encoding in, and architectures of, digital signal processing systems t...
Smart Systems applications often include error resilient computations, due to the presence of noisy ...
textFor decades, the semiconductor industry enjoyed exponential improvements in microprocessor power...
In this work, programmable analog techniques using floating-gate transistors have been developed to ...
The past decade has witnessed a revolution in digital electronics. As the cost per function has dec...
Equalization and channel decoding are “traditionally” two cascade processes at the receiver side of ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The slowdown of Moore's law, which has been the driving force of the electronics industry over the l...
Current digital computers are about to hit basic physical boundaries with respect to integration den...
Analog computing (AC) was the predominant form of computing up to the end of World War II. The inven...
With power increasingly becoming the dominant limiting factor for today's computing needs, the...
In the past 10 years computer architecture research has moved to more heterogeneity and less adheren...
Due to fundamental physical limitations, conventional digital circuits have not been able to scale a...
Thesis (Ph. D.)--Massachusetts Institute of Technology, School of Architecture and Planning, Program...
Emerging applications in the field of machine vision, deep learning and scientific simulation requir...
This work investigates signal encoding in, and architectures of, digital signal processing systems t...
Smart Systems applications often include error resilient computations, due to the presence of noisy ...
textFor decades, the semiconductor industry enjoyed exponential improvements in microprocessor power...
In this work, programmable analog techniques using floating-gate transistors have been developed to ...
The past decade has witnessed a revolution in digital electronics. As the cost per function has dec...
Equalization and channel decoding are “traditionally” two cascade processes at the receiver side of ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The slowdown of Moore's law, which has been the driving force of the electronics industry over the l...