文件名称:paper_FPGA
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基于FPGA控制的高速固态存储器设计,对固态存储器进行了需求分析, 根据航天工程对高速固态存储器的需求, 确定了设计方案。
针对航天工程对高速固态存储器速率要求较高的特点, 在逻辑设计方面采用流水线技术、并行总线技术。在器件选择方面, 采用LVDS构成接口电路, FPGA构成控制逻辑电路电路, SDRAM芯片阵列构成存储电路。设计了高速固态存储器。该设计简化了硬件电路, 大大提高了存储数据的速率。-FPGA-based control design of high speed solid state memory, solid state memory of the needs analysis carried out, according to aerospace engineering demand for high-speed solid-state memory, set design. Aerospace engineering for high-speed solid-state memory features require a higher rate, in the logic design using pipelining, parallel bus technology. In the device selection, the use of LVDS interface circuit composition, FPGA control logic circuit form, SDRAM chips constitute a memory circuit array. Design of high speed solid state memory. The design simplifies the hardware circuit, greatly increased the rate of stored data.
针对航天工程对高速固态存储器速率要求较高的特点, 在逻辑设计方面采用流水线技术、并行总线技术。在器件选择方面, 采用LVDS构成接口电路, FPGA构成控制逻辑电路电路, SDRAM芯片阵列构成存储电路。设计了高速固态存储器。该设计简化了硬件电路, 大大提高了存储数据的速率。-FPGA-based control design of high speed solid state memory, solid state memory of the needs analysis carried out, according to aerospace engineering demand for high-speed solid-state memory, set design. Aerospace engineering for high-speed solid-state memory features require a higher rate, in the logic design using pipelining, parallel bus technology. In the device selection, the use of LVDS interface circuit composition, FPGA control logic circuit form, SDRAM chips constitute a memory circuit array. Design of high speed solid state memory. The design simplifies the hardware circuit, greatly increased the rate of stored data.
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基于FPGA控制的高速固态存储器设计.pdf