Clock Domains Cross FIFO Interface Design of Multichannel Continuous DDR2 Read and Write

Guo Cheng Wang; Yan Peng Ma; Hai Tao Lu; Xuan Qi Chen; Ping Li

doi:10.4028/www.scientific.net/AMM.556-562.1622

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 556-562Clock Domains Cross FIFO Interface Design of...

Clock Domains Cross FIFO Interface Design of Multichannel Continuous DDR2 Read and Write

Abstract:

In this paper, a clock domains cross FIFO interface of multichannel continuous DDR2 read and write is designed. The interface provides continuous data stream from DDR2 to 12 different channels simultaneously. Four core issues are resolved: mismatch on bit width between DDR2 user interface and the channels, data stream conversion control from DDR2 to channels, clock domains difference between DDR2 and channels, Discontinuous process of DDR2 read and write. DDR2 storage spaces are partitioned for matching data width of the DDR2 user interface and the channels, and to achieve the maximum utilization of the DDR2 memory. Via state machine, data conversion and synchronization from DDR2 to channels are implemented, and the state machine can be applied to providing continuous DDR2 data to any numbers of channels simultaneously. Cross clock domains FIFO interface goes to solve the different clock domains problem between channels and DDR2. When bank or row addresses conversion occurs, or DDR2 auto-refresh cycle comes, DDR2 cannot be read or written, leading to data interruptedly in time aspect. To solve the problem, the FIFO interface is designed followed the full-mode handshake protocol. Through the interface caching, the 12 channels can continuously read data from the DDR2 simultaneously. The final design can achieve the goal that under the fastest case, DDR2 provides 12 channels data stream simultaneously at 61.538 MHz rate at the same time, and 90.566% efficiency in the reading and writing aspects.

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Periodical:

Applied Mechanics and Materials (Volumes 556-562)

Pages:

1622-1626

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.556-562.1622

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Online since:

May 2014

Authors:

Guo Cheng Wang*, Yan Peng Ma, Hai Tao Lu, Xuan Qi Chen, Ping Li

Keywords:

Clock Domains Crossing, DDR2, FIFO Interface, Multi-Channel

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References

[1] Zhan Shu. Design and FPGA Implementation of DDR2 Controller IP [D]. Hefei University of Technology, (2009).

Google Scholar

[2] An Innovative Design of the DDRlDDR2 SDRAM Compatible Controller.

Google Scholar

[3] DDR2 SDRAM MT47H128M16HG-5E-datasheet.

Google Scholar

[4] UG086 Xilinx Memory Interface Solutions, User Guide http: /www. xilinx. com/support/documentation/ip_documentation/ug086. pdf.

Google Scholar

[5] Xilinx XAPP858 High-Performance DDR2 SDRAM Interface in Virtex-5 Devices http: /www. xilinx. com/support/documentation/application_notes/xapp858. pdf.

Google Scholar

[6] Xilinx AccelDSP User Guide http: /www. xilinx. com/support/documentation/sw_manuals/xilinx11/acceldsp_user. pdf.

Google Scholar