DO-254 AXI 7-Series DDRx (Limited) 1.00a

Overview

Maps AXI4 transactions coming from the MicroBlaze™ to the User Interface Block providing an industry-standard bus protocol interface to the memory controller. It enables the MicroBlaze™ to use external SDRAMs through the AXI4 interface, thereby increasing its versatility. Basically it is a memory controller for 7-series devices (higher speed, more complex), takes care of refreshing memories, etc.

Key Features

  • DDR3 SDRAM Features
  • Component support for interface widths up to 64 bits
  • Single rank UDIMM and SODIMM support
  • DDR3 (1.5 V) and DDR3L (1.35 V)
  • 1, 2, and 4 Gb density device support
  • 8-bank support
  • x8 and x16 device support
  • 8:1 DQ:DQS ratio support
  • Configurable data bus widths (multiples of 8, up to 64 bits)
  • 8-word burst support
  • Support for 5 to 11 cycles of column-address strobe (CAS) latency (CL)
  • On-die termination (ODT) support
  • Support for 5 to 8 cycles of CAS write latency
  • Write leveling support for DDR3 (fly-by routing topology required for DDR3 component designs)
  • JEDEC-compliant DDR3 initialization support
  • Source code written in Verilog
  • 4:1 and 2:1 memory to FPGA logic interface clock ratio
  • Internal VREF support
  • Multicontroller support for up to eight controllers
  • Two controller request processing modes:
  • Normal: Reorder requests to optimize system throughput and latency
  • Strict: Memory requests are processed in the order received
  • DDR2 SDRAM Features
  • Component support for interface widths up to 64 bits
  • Single rank UDIMM and SODIMM
  • 1 and 2 Gb density device support (additional densities supported in the MIG tool using the Create Custom Part feature)
  • 4- and 8-bank support
  • x8 and x16 device support
  • 8:1 DQ:DQS ratio support
  • Configurable data bus widths (multiples of 8, up to 64 bits)
  • 8-word burst support
  • Support for 4 to 5 cycles of column address strobe (CAS) latency
  • On-die termination (ODT) support
  • JEDEC-compliant DDR2 initialization support
  • Source code written in Verilog
  • 4:2 and 2:1 memory to FPGA logic interface clock ratio
  • Internal VREF support
  • Two controller request processing modes:
  • Normal: Reorder requests to optimize system throughput and latency
  • Strict: Memory requests are processed in the order received

Benefits

  • Mature source IP has been re-engineered for full DAL-A compliance for airworthiness and design assurance for safety-critical programs, supporting and simplifying the compliance effort at the FPGA level.

Deliverables

  • Encrypted source along with a complete certification data package (CDP) including all artifacts required for chip-level compliance.

Technical Specifications

Availability
March 2014
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Semiconductor IP