Brian J. Campbell | Researchain

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Featured researches published by Brian J. Campbell.

symposium on vlsi circuits | 2001

A 1 GHz power efficient single chip multiprocessor system for broadband networking applications

Sribalan Santhanam; R. Allmon; K. Anne; R. Blake; N. Bunger; Brian J. Campbell; M. Carlson; Zongjian Chen; J. Cheng; Tuan Do; Daniel W. Dobberpuhl; Joseph M. Ingino; D. Kidd; David A. Kruckemyer; Jong Lee; Daniel C. Murray; S. Nishimoto; L. O'Donnell; M. Oykher; M. Panich; Mark H. Pearce; D. Priore; D. Rodriguez; Robert Rogenmoser; Dongwook Suh; V. Sundaresan; E. Supnet; V. von Kaenel; G. Yee; G. Yiu

The Broadcom BCM12500 is a high performance system on a chip (SOC) targeted at network centric tasks. The chip consists of two high performance SB-1 MIPS64/sup TM/ CPUs, a shared 512 KB L2 cache, a DDR memory controller, and integrated I/O. All major blocks of the processor are connected together via the ZBbus/sup TM/; a high speed split transaction fully coherent multi processor bus. Three Gigabit Ethernet MACs enable a direct interface to network elements. High-speed system I/O is provided using AMDs Lightning Data Transport (LDT/sup TM/) I/O fabric and a 66 MHz PCI bus. The die measures 14.2 mm by 13.3 mm in a bulk 0.15 /spl mu/m CMOS technology and has a power dissipation of 13 W at 1.2 V and 1 GHz.

international solid-state circuits conference | 2007

A 25W SoC with Dual 2GHz Power Cores and Integrated Memory and I/O Subsystems

Zongjian Chen; Priya Ananthanarayanan; Sukalpa Biswas; Brian J. Campbell; Hao Chen; Shaishav Desai; Dominic Go; Rajat Goel; V. von Kaenel; J. Kassoff; Fabian Klass; Weichun Ku; T. Li; J. Lin; Khurram Z. Malik; Anup S. Mehta; Daniel C. Murray; E. Shiu; C. Shuler; Sribalan Santhanam; Gregory S. Scott; Junji Sugisawa; Toshinari Takayanagi; H. John Tarn; Pradeep R. Trivedi; James Wang; Ricky Wen; John Yong

An SoC is presented with dual 2GHz Powertrade cores, coherent crossbar interconnect, 2MB L2 cache, and memory and I/O subsystem. The chip consumes a maximum of 25W of power. The 115mm2 die is implemented in a 65nm 8M process with low-power design techniques. Circuits to improve system performance under power constraints are discussed

custom integrated circuits conference | 2007

Power-Efficient Dual-Supply 64kB L1 Caches in a 65nm CMOS Technology

Brian J. Campbell; James Burnette; Naveen Javarappa; Vincent R. von Kaenel

The 64 kB LI caches on the PA6T-1682M SoC CPU are composed of common data and tag structures fabricated in a 65 nm CMOS process and deliver a 1.5 cycle read latency with 32 GB/s bandwidth at 2 GHz. Several features optimize cache performance and power including power-down safe level shifters, streamlined dual-supply bitslices, fine-grain clock gating, and a centralized tag floorplan.

Archive | 2010