A novel interleaved switched-capacitor and SRAM-based multibit matrix-vector multiply-accumulate engine for in-memory computing is presented. Its operation principle is based on first converting an SRAM-stored n-bit weight into a proportional voltage using a pipeline D/A converter built from n+1 equally sized stages. A switched-capacitor stage then multiplies these voltages with an m-bit digital input activation. Finally, the output voltages that correspond to the different multiplication results are accumulated along one column by means of charge-sharing. With our proposed architecture, the required circuit area, computation time, and power consumption scale linearly versus the bit resolution of both the inputs and the weights. Analytical ...
International audienceThis article presents Computational SRAM (C-SRAM) solution combining In- and N...
Reconfigurable devices used in digital signal processing applications must handle large amounts of d...
Two analog very large scale integration (VLSI) vector matrix multiplier integrated circuit chips wer...
A novel interleaved switched-capacitor and SRAM-based multibit matrix-vector multiply-accumulate eng...
In this paper, we present a 16 x 16 analog vectormatrix multiplier with analog electrically erasable...
Abstract- An internally analog, e x t e d y digital architec-ture for matrix-vector multiplication i...
Computation-in-Memory accelerators based on resistive switching devices represent a promising approa...
International audience—In the context of highly data-centric applications, close reconciliation of c...
The well-known Moore's Law is about to end after CMOS devices using 7nm process technology are widel...
Abstract—Energy efficiency has emerged as one of the key performance metrics in computing. In this w...
International audienceThis paper presents a new methodology for automating the Computational SRAM (C...
One of the most important constraints of today’s architectures for data-intensive applications is th...
Abstract—The matrix-vector multiplication is the key operation for many computationally intensive al...
International audienceThis paper proposes a micro-kernel to efficiently compute 4x4 8-bit matrix mul...
Increasing the energy efficiency of deep learning systems is critical for improving the cognitive ca...
International audienceThis article presents Computational SRAM (C-SRAM) solution combining In- and N...
Reconfigurable devices used in digital signal processing applications must handle large amounts of d...
Two analog very large scale integration (VLSI) vector matrix multiplier integrated circuit chips wer...
A novel interleaved switched-capacitor and SRAM-based multibit matrix-vector multiply-accumulate eng...
In this paper, we present a 16 x 16 analog vectormatrix multiplier with analog electrically erasable...
Abstract- An internally analog, e x t e d y digital architec-ture for matrix-vector multiplication i...
Computation-in-Memory accelerators based on resistive switching devices represent a promising approa...
International audience—In the context of highly data-centric applications, close reconciliation of c...
The well-known Moore's Law is about to end after CMOS devices using 7nm process technology are widel...
Abstract—Energy efficiency has emerged as one of the key performance metrics in computing. In this w...
International audienceThis paper presents a new methodology for automating the Computational SRAM (C...
One of the most important constraints of today’s architectures for data-intensive applications is th...
Abstract—The matrix-vector multiplication is the key operation for many computationally intensive al...
International audienceThis paper proposes a micro-kernel to efficiently compute 4x4 8-bit matrix mul...
Increasing the energy efficiency of deep learning systems is critical for improving the cognitive ca...
International audienceThis article presents Computational SRAM (C-SRAM) solution combining In- and N...
Reconfigurable devices used in digital signal processing applications must handle large amounts of d...
Two analog very large scale integration (VLSI) vector matrix multiplier integrated circuit chips wer...