The high performance network-on-chip (NoC) router using minimal hardware resources to minimize the layout area is very essential for NoC design. In this paper, we have proposed a memory sharing method of a wormhole routed NoC architecture to alleviate the area overhead of a NoC router. In the proposed method, a memory is shared by multiple physical links by using a multi-port memory. In this paper, we have proposed a partial link-sharing method and evaluated the communication performance using the proposed method. It is revealed that the resulted communication performance by the proposed methods is higher than that of the conventional method, and the progress ratio of the 3D-torus network is higher than that of 2D-torus network. It is shown that the improvement of communication performance using partial link sharing method is achieved with slightly increase of hardware cost.

The presented unified data/instruction cache design uses multiple banks and features 4 ports, distributed crossbar, different word-length for data and instruction ports, interleaved cache-line words and synchronous access with hidden precharge. A 20.5 KByte storage capacity is integrated in 5-metal-layer CMOS logic technology with 200 nm minimum gate length and a 3.4 ns access-cycle time is achieved. The access bandwidth corresponds to 10 ports with standard word-length, while the cost in increased Si-area is only 25% in comparison to a 1-port cache.