1-3hit |
Hisayuki HIGUCHI Suguru TACHIBANA Masataka MINAMI Takahiro NAGANO
Low-power, high-speed match-detection circuits for a content addressable memory(CAM) are proposed and evaluated. The circuits consist a current supply to a match-line, a differential amplifier, and 9-MOSFET CAM cells. The implementation of these circuits made it possible to realize a 16-entry, 32-bit data-compare CAM TEG of 1.2-ns matchdetection time with 5-mW power dissipation in 10-ns cycle-time.
Masataka MINAMI Nagatoshi OHKI Hiroshi ISHIDA Toshiaki YAMANAKA Akihiro SHIMIZU Koichiro ISHIBASHI Akira SATOH Tokuo KURE Takashi NISHIDA Takahiro NAGANO
A high-performance microprocessor-compatible small size full CMOS SRAM cell technology for under 1.8-V operation has been developed. Less than 1-µm spacing between the n and pMOSFETs is achieved by using a retrograde well combined with SSS-OSELO technology. To connect the gates of a driver nMOSFET and a load pMOSFET directly, a 0.3-µm n-gate load pMOSFET, formed by amorphous-Si-film through-channel implantation, is merged with a 0.25-µm p-gate pMOSFET for the peripheral circuits. The memory cell area is reduced by using a mask-free contact process for the local interconnect, which includes titanium-nitride wet-etching using a plasma-TEOS silicone-dioxide mask. The newly developed memory cell was demonstrated using 0.25-µm CMOS process technology. A 6.93-µm2 and 1-V operation full CMOS SRAM cell with a high-performance circuit was achieved by a simple fabrication process.
Masataka MINAMI Takashi HIKIHARA
Phase structure of nonlinear dynamical system is governed by the vector field and decides the trajectories. Accordingly, the power spectra of trajectories include the structural field effect on the phase space. In this paper, we develop a method for analyzing phase structure using power spectra of trajectories and reconstitute a potential function in the system.