Author Correction: Ferroelectric ternary content-addressable memory for one-shot learning

Virtually Cool Ternary Content Addressable Memory

Fast content addressable data access mechanisms have compelling applications in today’s systems. Many of these exploit the powerful wildcard matching capabilities provided by ternary content addressable memories. For example, TCAM based implementations of important algorithms in data mining been developed in recent years; these achieve an an order of magnitude speedup over prevalent techniques....

A Multiple-Valued Ferroelectric Content-Addressable Memory

A novel architecture f o r a Multiple-Valued Ferroelectric Content-Addressable Memory (FCAM) is proposed. An FCAM employs ferroelectric capacitors as storage elements to provide a nonvolatile content-addressable memory. A 2-bit search operation is performed by a simultaneous access to a 4-level polarization, hence reducing the total number of search operations to h a y Four FCAM structures are ...

Heterogeneous graphene-CMOS ternary content addressable memory

Leveraging nanotechnology for computing opens up exciting new avenues for breakthroughs. For example, graphene is an emerging nanoscale material and is believed to be a potential candidate for post-Si nanoelectronics due to high carrier mobility and extreme scalability. Recently, a new graphene nanoribbon crossbar (xGNR) device was proposed which exhibits negative differential resistance (NDR)....

Ternary Content Addressable Memory Types And Matchline Schemes

Ternary Content Addressable Memory (TCAM) used in many application like network routers and packet classification. To reduce the power consumption of matchlines, the matchline partitioning scheme is used. Matchline is partitioned into NOR and NAND type matchline. If NAND (NOR) type TCAM cell is used then NAND (NOR) type matchline is used. NOR type TCAM has feature of high speed and high compare...

Low-Power High-Performance Ternary Content Addressable Memory Circuits