DDR2 SDRAM Controller - Pipelined
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DDR2 SDRAM Controller - Pipelined
Overview
The Double Data Rate (DDR) Synchronous Dynamic Random Access Memory
(SDRAM) Controller is a general-purpose memory controller that interfaces with
industry standard DDR2 SDRAM. The memory controller provides a generic
command interface to the user's application. This interface reduces the effort to
integrate the module with the remainder of the application and minimizes the need
to deal with the DDR2 SDRAM command interface. The timing parameters for the memory can be set through the signals
that are input to the core as part of the configuration interface. This enables switching between different memory devices
and modification of timing parameters to suit the application using the same netlist.
Features
Interfaces to Industry Standard DDR2 SDRAM
High-Performance DDR2 533/400/333/266/200/133 operation
Programmable Burst Lengths of 4 or 8
Programmable CAS Latency of 3, 4, 5 or 6 Cycles
Intelligent Bank Management to Minimize ACTIVE Commands
Supports All Standard DDR Commands
Synchronous Implementation for Reliable Operation
Command Pipeline to Maximize Throughput
Up to 4 chip selects for multiple DIMM support
Supports all Common Memory Configurations
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DDR2 SDRAM Controller - Pipelined
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SDRAM data path widths of 8, 16, 32, 64 and 72 bits
Variable address widths for different memory devices
Programmable timing parameters
Byte level writing through Data Mask signals
Burst termination
The DDR2 SDRAM Controller - Pipelined is available as an IPexpress user configurable IP core, which allows the
configuration of the IP and generation of a netlist and simulation file for use in designs. Please note that generating a
bitstream may be prevented or the bitstream may have time logic present unless a license for the IP is purchased.
Performance and Resource Utilization
LatticeECP3
2
Parameter Settings
User Guide Table 3-1 parameter defaults
1
SLICEs
LUTs
Registers
I/O
fMAX (MHz)3
1189
1386
1567
258
266 MHz (533 DDR2)
1. Performance and utilization characteristics are generated using LFE3-95E-8FN1156CES with Lattice ispLEVER 8.1 software in DDR2
mode. Performance may vary when using this IP core in a different density, speed or grade within the LatticeECP3 family.
2. SDRAM data path width of 32 bits.
3. The DDR2 IP core can operate at 266 MHz (533 DDR2) in the fastest speed-grade (-8) when the data width is 64 bits or less and 2 or
fewer chip selects are used. For help with designs running at 266 MHz, contact your local sales office.
LatticeECP2M/S
2
Parameter Settings
User Guide Table 3-1 parameter defaults
1
3
SLICEs
LUTs
Registers
I/O
fMAX (MHz)
1234
1435
1530
258
266 MHz (533 DDR2)
1. Performance and utilization characteristics are generated using LFECP2M-35E-6F672C with Lattice ispLEVER 8.1 software in DDR2
mode. Performance may vary when using this IP core in a different density, speed or grade within the LatticeECP2M/S family.
2. SDRAM data path width of 32 bits.
3. The DDR2 IP core can operate at 266 MHz (533 DDR2) in the fastest speed-grade (-7) when the data width is 64 bits or less and 2 or
fewer chip selects are used. For help with designs running at 266 MHz, contact your local sales office.
LatticeECP2/S
2
Parameter Settings
User Guide Table 3-1 parameter defaults
1
SLICEs
LUTs
Registers
I/O
fMAX (MHz)3
1234
1435
1530
258
266 MHz (533 DDR2)
1. Performance and utilization characteristics are generated using LFECP2-50E-6F672C Lattice ispLEVER 8.1 software in DDR2 mode.
Performance may vary when using this IP core in a different density, speed or grade within the LatticeECP2/S family.
2. SDRAM data path width of 32 bits.
3. The DDR2 IP core can operate at 266 MHz (533 DDR2) in the fastest speed-grade (-7) when the data width is 64 bits or less and 2 or
fewer chip selects are used. For help with designs running at 266 MHz, contact your local sales office.
LatticeSC/M1
2
Parameter Settings
User Guide Table 3-1 parameter defaults
SLICEs
LUTs
Registers
I/O
fMAX (MHz)
1261
1490
1530
246
266 MHz (533 DDR2)
1. Performance and utilization characteristics are generated using LFSC3GA25E-6F900C Lattice ispLEVER 8.1 software in DDR2 mode.
Performance may vary when using this IP core in a different density, speed or grade within the LatticeSC/M family.
2. SDRAM data path width of 32 bits.
MachXO21
2
Parameter Settings
User Guide Table 3-1 parameter defaults
SLICEs
LUTs
Registers
I/O
fMAX (MHz)
704
1325
1118
152
133 MHz (266 DDR2)
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DDR2 SDRAM Controller - Pipelined
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8.1 software. Performance may vary when using this IP core in a different density, speed or grade within the MachXO2 family.
2. SDRAM data path width of 16 bits.
LatticeXP21
Parameter Settings2
User Guide Table 3-1 parameter defaults
SLICEs
LUTs
Registers
I/O
fMAX (MHz)
1232
1433
1530
258
200 MHz (400 DDR2)
1. Performance and utilization characteristics are generated using LFXP2-17E-6F484C Lattice ispLEVER 8.1 software in DDR2 mode.
Performance may vary when using this IP core in a different density, speed or grade within the LatticeXP2 family.
2. SDRAM data path width of 32 bits.
Ordering Information
Family
LatticeECP3
LatticeECP2M/S
LatticeECP2/S
LatticeSC/M
MachXO2
LatticeXP2
Part Number
DDR2-P-E3-U6
DDR2-P-PM-U6
DDR2-P-P2-U6
DDR2-P-SC-U6
DDR2CTWB-M2-U
DDR2-P-X2-U6
IP Version: 7.2
Evaluate: To download a full evaluation version of this IP, go to the IPexpress tool and click the IP Server button in the
toolbar. All LatticeCORE IP cores and modules available for download will be visible.
Purchase: To find out how to purchase the IP Core, please contact your local Lattice Sales Office.
http://www.latticesemi.com/products/intellectualproperty/ipcores/ddr2sdramcontrollerpip... 10/10/2011
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