Developed DDR3 SDRAM based on the third generation of DDR SDRAM standards that operates at twice the speed of DDR2 (800-1600 Mbps) and operates at a lower power of 1.5V.
Starting in FY 2008 with high-end notebook PCs, Elpida provides an extensive lineup of DDR3 SDRAM products that are now fully established as the main memory in servers and mainstream PCs.

Lineup
| wordxbit | Int. Banks | Grade | Part Number | Class | Supply Voltage | Refresh Cycles | Rev. | Package | Datasheet | Simulation Model | Product Status | Remark |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1024M x 4 | 8 | DDR3-1600K(11-11-11) | EDJ4204BASE | GN-F | 1.5+/-0.075 | 8K/64ms | A | 78-FBGA | Ask | MP | ||
| DDR3-1333H(9-9-9) | DJ-F | Ask | MP | |||||||||
| DDR3-1066F(7-7-7) | AE-F | Ask | MP | |||||||||
| 1024M x 4 | 8 | DDR3-1333H(9-9-9) | EDJ4204EASE | DJ-F | 1.35+0.1-0.067 | 8K/64ms | A | 78-FBGA | Ask | ES | ||
| DDR3-1066F(7-7-7) | AE-F | Ask | ES | |||||||||
| 512M x 8 | 8 | DDR3-1600K(11-11-11) | EDJ4208BASE | GN-F | 1.5+/-0.075 | 8K/64ms | A | 78-FBGA | Ask | MP | ||
| DDR3-1333H(9-9-9) | DJ-F | Ask | MP | |||||||||
| DDR3-1066F(7-7-7) | AE-F | Ask | MP | |||||||||
| 512M x 8 | 8 | DDR3-1333H(9-9-9) | EDJ4208EASE | DJ-F | 1.35+0.1-0.067 | 8K/64ms | A | 78-FBGA | Ask | ES | ||
| DDR3-1066F(7-7-7) | AE-F | Ask | ES |
| wordxbit | Int. Banks | Grade | Part Number | Class | Supply Voltage | Refresh Cycles | Rev. | Package | Datasheet | Simulation Model | Product Status | Remark |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 512M x 4 | 8 | DDR3-1600K(11-11-11) | EDJ2104BCSE | GN-F | 1.5+/-0.075 | 8K/64ms | C | 78-FBGA | Ask | Ask | Lead & Halogen Free | |
| DDR3-1333H(9-9-9) | DJ-F | Ask | Ask | |||||||||
| DDR3-1066F(7-7-7) | AE-F | Ask | Ask | |||||||||
| 256M x 8 | 8 | DDR3-1866L(12-12-12) | EDJ2108DEBG | JQ-F | 1.5+/-0.075 | 8K/64ms | E | 78-FBGA | Ask | |||
| DDR3-1600K(11-11-11) | GN-F | MP | ||||||||||
| DDR3-1333H(9-9-9) | DJ-F | MP | ||||||||||
| 256M x 8 | 8 | DDR3-1600K(11-11-11) | EDJ2108EEBG | GN-F | 1.35+0.1-0.067 | 8K/64ms | E | 78-FBGA | Ask | |||
| DDR3-1333H(9-9-9) | DJ-F | MP | ||||||||||
| 256M x 8 | 8 | DDR3-1600K(11-11-11) | EDJ2108BCSE | GN-F | 1.5+/-0.075 | 8K/64ms | C | 78-FBGA | Ask | Ask | Lead & Halogen Free | |
| DDR3-1333H(9-9-9) | DJ-F | Ask | Ask | |||||||||
| DDR3-1066F(7-7-7) | AE-F | Ask | Ask | |||||||||
| 128M x 16 | 8 | DDR3-1866L(12-12-12) | EDJ2116DEBG | JQ-F | 1.5+/-0.075 | 8K/64ms | E | 96-FBGA | Ask | |||
| DDR3-1600K(11-11-11) | GN-F | MP | ||||||||||
| DDR3-1333H(9-9-9) | DJ-F | MP | ||||||||||
| 128M x 16 | 8 | DDR3-1600K(11-11-11) | EDJ2116EEBG | GN-F | 1.35+0.1-0.067 | 8K/64ms | E | 96-FBGA | Ask | |||
| DDR3-1333H(9-9-9) | DJ-F | MP |
| wordxbit | Int. Banks | Grade | Part Number | Class | Supply Voltage | Refresh Cycles | Rev. | Package | Datasheet | Simulation Model | Product Status | Remark |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 128M x 8 | 8 | DDR3-1600K(11-11-11) | EDJ1108DJBG | GN-F | 1.5+/-0.075 | 8K/64ms | J | 78-FBGA | MP | Lead & Halogen Free | ||
| DDR3-1333H(9-9-9) | DJ-F | MP | ||||||||||
| 64M x 16 | 8 | DDR3-1600K(11-11-11) | EDJ1116DJBG | GN-F | 1.5+/-0.075 | 8K/64ms | J | 96-FBGA | MP | Lead & Halogen Free | ||
| DDR3-1333H(9-9-9) | DJ-F | MP |
*Product Status: UD:Under Development, ES:Engineering Sample, MP:Mass Production, Ask:Contact Elpida sales to check the production status
- Denali simulation models (SOMA library) are available at www.eMemory.com.
- Denali memory models can be used with any Verilog or VHDL platform. To run the Denali memory models on your Verilog or VHDL platform, you must have a Memory Modeler license from Denali Software.
For further information on Denali models, visit their web site at www.denalisoft.com.
- Synopsys memory models are available at http://www.synopsys.com/dw/dwmm.php.
- Synopsys memory models can be used with any Verilog or VHDL platform. To run the Synopsys memory models on your Verilog or VHDL platform, you must have a "DesignWareLibrary" or "DesignWareVerifcationLibrary" license from Synopsys Software. For further information on Synopsys models, visit their web site at www.synopsys.com.