Algorithm for micropipeline buffer control
نویسندگان
چکیده
منابع مشابه
Four-phase micropipeline latch control circuits
Standard micropipelines use simple two-phase control circuits. The latches employed on AMULET1 are levelsensitive, so twoto four-phase converters are required in each latch controller. To avoid this overhead an investigation has been carried out into four-phase micropipeline control circuits; this has thrown up several design issues relating to cost, performance and safety, and forms a useful i...
متن کاملBuffer control algorithm for low bit-rate video compression
In this paper, a new buffer control algorithm for motion-compensated hybrid DPCM/DCT coding (like H.261 and MPEG-1 I pictures) is presented. The algorithm uses the bit allocation algorithm to determine the quantization scale factor of each macroblock under a given target bit rate. An important advantage of the algorithm is that it has precise control of the buffer and avoids buffer overflow eve...
متن کاملAn Time Algorithm for Optimal Buffer Insertion with Buffer Types
Buffer insertion is a popular technique to reduce the interconnect delay. The classic buffer insertion algorithm of van Ginneken has time complexity , where is the number of buffer positions. Lillis, Cheng and Lin extended van Ginneken’s algorithm to allow buffer types in time . For modern design libraries that contain hundreds of buffers, it is a serious challenge to balance the speed and perf...
متن کاملA genetic algorithm approach for a dynamic cell formation problem considering machine breakdown and buffer storage
Cell formation problem mainly address how machines should be grouped and parts be processed in cells. In dynamic environments, product mix and demand change in each period of the planning horizon. Incorporating such assumption in the model increases flexibility of the system to meet customer’s requirements. In this model, to ensure the reliability of the system in presence of unreliable machine...
متن کاملA Fast Two-phase Micropipeline Control Wrapper for Standard Cell Implementation
A fast control wrapper for a micropipeline with two-phase control is presented. The wrapper is implemented in an Artisan 0.13µ commercial standard library that has not been augmented with any special cells for asynchronous design. The wrapper is approximately 25% faster than a more traditional approach that uses a Muller C-element. Introduction: Micropipelines [1] use control logic wrapped arou...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
ژورنال
عنوان ژورنال: Applied Technologies and Innovations
سال: 2011
ISSN: 1804-1191,1804-4999
DOI: 10.15208/ati.2011.2