Abstract — Associative Processor (AP) combines data storage and data processing, and functions simultaneously as a massively parallel array SIMD processor and memory. Traditionally, AP is based on CMOS technology, similar to other classes of massively parallel SIMD processors. The main component of AP is a Content Addressable Memory (CAM) array. As CMOS feature scaling slows down, CAM experiences scalability problems. In this work, we propose and investigate an AP based on resistive CAM- the Resistive AP (ReAP). We show that resistive memory technology potentially allows scaling the AP from a few millions to a few hundred millions of processing units on a single silicon die. We compare the performance and power consumption of a ReAP to a CM...
We report on the implementation of an Associative Capacitive Network (ACN) based on the nondestructi...
Since they were first introduced three decades ago, Field-Programmable Gate Arrays (FPGAs) have evol...
[[abstract]]The parallel processing elements (PPE) have been built around an associative memory (AM)...
Most memory devices store and retrieve data by addressing specific memory locations. As a result, th...
The associative memory (AM) system is a computing device made of hundreds of AM ASICs chips designed...
The complexity of the computational problems is rising faster than the computational platforms' capa...
With the accessible data reaching zettabyte level, CMOS technology is reaching its limit for the dat...
Computer architecture faces an enormous challenge in recent years: while the demand for performance ...
The associative memory (AM) chip is ASIC device specifically designed to perform ``pattern matching'...
The functional structure of a classical content-addressable memory (CAM) and its realization at the ...
Processing in memory (PIM) moves computation into memories with the goal of improving throughput and...
Associative memories, in contrast to conventional address-based memories, are inherently fault-to...
In-Memory Computing (IMC) is considered a great candidate to replace the von-Neumann computing archi...
ABSTRACT- Content-addressable memory (CAM) is a special type of computer Memory used in certain very...
Content addressable memories (CAMs) have significantly lower capacities than RAMs. Following a summa...
We report on the implementation of an Associative Capacitive Network (ACN) based on the nondestructi...
Since they were first introduced three decades ago, Field-Programmable Gate Arrays (FPGAs) have evol...
[[abstract]]The parallel processing elements (PPE) have been built around an associative memory (AM)...
Most memory devices store and retrieve data by addressing specific memory locations. As a result, th...
The associative memory (AM) system is a computing device made of hundreds of AM ASICs chips designed...
The complexity of the computational problems is rising faster than the computational platforms' capa...
With the accessible data reaching zettabyte level, CMOS technology is reaching its limit for the dat...
Computer architecture faces an enormous challenge in recent years: while the demand for performance ...
The associative memory (AM) chip is ASIC device specifically designed to perform ``pattern matching'...
The functional structure of a classical content-addressable memory (CAM) and its realization at the ...
Processing in memory (PIM) moves computation into memories with the goal of improving throughput and...
Associative memories, in contrast to conventional address-based memories, are inherently fault-to...
In-Memory Computing (IMC) is considered a great candidate to replace the von-Neumann computing archi...
ABSTRACT- Content-addressable memory (CAM) is a special type of computer Memory used in certain very...
Content addressable memories (CAMs) have significantly lower capacities than RAMs. Following a summa...
We report on the implementation of an Associative Capacitive Network (ACN) based on the nondestructi...
Since they were first introduced three decades ago, Field-Programmable Gate Arrays (FPGAs) have evol...
[[abstract]]The parallel processing elements (PPE) have been built around an associative memory (AM)...