Wael Badawy, Guoqing Zhang, M. Talley, M. Weeks, M. Bayoumi
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引用次数: 1
Abstract
This paper presents a low power 3-D discrete wavelet transform processor for medical applications. The main target of this work is the compression of Magnetic Resonance Imaging (MRI) data using a wavelet based scheme. A prototype has been developed to realize a 3-D wavelet compressor. The processor is based on an architecture that uses a centrally controlled unit to coordinate sub-systems which carry out the operations necessary for the data compression. The subsystems include a small cache memory used for block data storage, parallel high and low pass filters used for data calculation, and two coefficient units used to retrieve off-chip wavelet coefficients. The processor has been prototyped using 0.6 /spl mu/m CMOS (three metal) technology, the prototype processor is modular. It has been simulated at the functional, circuit, and physical levels. The performance measures of the prototype, area, time delay, power and utilization has been evaluated. The prototype operates at an estimated frequency of 272 MHz and dissipating 0.5 W of power.
提出了一种低功耗的医用三维离散小波变换处理器。这项工作的主要目标是使用基于小波的方案压缩磁共振成像(MRI)数据。研制了实现三维小波压缩器的样机。处理器基于一种体系结构,该体系结构使用中央控制单元来协调执行数据压缩所需操作的子系统。子系统包括用于块数据存储的小型缓存存储器,用于数据计算的并行高通和低通滤波器,以及用于检索片外小波系数的两个系数单元。该处理器已采用0.6 /spl μ m CMOS(三金属)技术进行原型化,原型处理器是模块化的。它已经在功能,电路和物理层面上进行了模拟。对样机、面积、时延、功耗、利用率等性能指标进行了评价。原型机的工作频率估计为272兆赫,功耗为0.5瓦。
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