A 3-transistor non-volatile analog storage cell with 14 bits effective resolution and rail-to-rail buffered voltage output is presented. The memory, which consists of charge stored on a MOS transistor floating gate, is written by means of hot-electron injection and erased by means of gate oxide tunneling. The circuit allows simultaneous memory reading and writing; by writing the memory under feedback control, errors due to oxide mismatch or trapping can be nearly eliminated, Small size and low power consumption make the cell especially attractive for use in analog neural networks. The cell is fabricated in a 2 μm n-well silicon Bi-CMOS process available from MOSIS
Embedding advanced cognitive capabilities in battery-constrained edge devices requires specialized h...
Nervous systems inspired neurocomputing has shown its great advantage in object detection, speech re...
This dissertation presents the first on-chip demonstration of a Multiply-and-Accumulate (MAC) functi...
The complexity of analog VLSI systems is often limited by the number of pins on a chip rather than b...
We have developed a new floating-gate silicon MOS transistor for analog learning applications. The m...
Journal ArticleThe complexity of analog VLSI systems is often limited by the number of pins on a chi...
Abstract—The complexity of analog VLSI systems is often limited by the number of pins on a chip rath...
Journal ArticleThe complexity of analog VLSI systems is often limited by the number of pins on a ch...
Our goal is to develop silicon learning systems. One impediment to achieving this goal has been the ...
We have developed a complementary pair of pFET and nFET floating-gate silicon MOS transistors for an...
In this paper we present a simple CMOS analog memory structure using the floating gate of a MOS tran...
Increasing the energy efficiency of deep learning systems is critical for improving the cognitive ca...
Nonvolatile memory design is a discipline that employs digital and analog circuit design techniques ...
In this paper, we explore the use of a 180 nm CMOS single-poly technology platform for realizing ana...
Sandip Tiwari Lester Eastman Joel BrockA new alternative device structure for scalable silicon non...
Embedding advanced cognitive capabilities in battery-constrained edge devices requires specialized h...
Nervous systems inspired neurocomputing has shown its great advantage in object detection, speech re...
This dissertation presents the first on-chip demonstration of a Multiply-and-Accumulate (MAC) functi...
The complexity of analog VLSI systems is often limited by the number of pins on a chip rather than b...
We have developed a new floating-gate silicon MOS transistor for analog learning applications. The m...
Journal ArticleThe complexity of analog VLSI systems is often limited by the number of pins on a chi...
Abstract—The complexity of analog VLSI systems is often limited by the number of pins on a chip rath...
Journal ArticleThe complexity of analog VLSI systems is often limited by the number of pins on a ch...
Our goal is to develop silicon learning systems. One impediment to achieving this goal has been the ...
We have developed a complementary pair of pFET and nFET floating-gate silicon MOS transistors for an...
In this paper we present a simple CMOS analog memory structure using the floating gate of a MOS tran...
Increasing the energy efficiency of deep learning systems is critical for improving the cognitive ca...
Nonvolatile memory design is a discipline that employs digital and analog circuit design techniques ...
In this paper, we explore the use of a 180 nm CMOS single-poly technology platform for realizing ana...
Sandip Tiwari Lester Eastman Joel BrockA new alternative device structure for scalable silicon non...
Embedding advanced cognitive capabilities in battery-constrained edge devices requires specialized h...
Nervous systems inspired neurocomputing has shown its great advantage in object detection, speech re...
This dissertation presents the first on-chip demonstration of a Multiply-and-Accumulate (MAC) functi...