256Mb ECC RDRAM DIMM 600MHz
Part# 33L3097
EAN:0087944507628
IBM - RDRAM - module - 256 MB - RIMM 184-PIN - 600 MHz / PC600 - ECC - for IntelliStation M Pro 6849, Pro 6868; IntelliStation Z Pro 6866
Native product specifications. The product description originates from Cnet. Foxway Distribution accepts no responsibility for error or misinformation in product descriptions from Cnet.
Product specifications
Product Description | IBM - RDRAM - module - 256 MB - RIMM 184-PIN - 600 MHz / PC600 |
Upgrade Type | System specific |
Data Integrity Check | ECC |
Lead Plating | Gold |
Product Type | Memory module |
Capacity | 256 MB |
Speed | 600 MHz (PC600) |
Designed For | IntelliStation M Pro 6849, Pro 6868; IntelliStation Z Pro 6866 |
Memory Type | RDRAM (RAMBUS) - RIMM 184-PIN |
General features
Capacity | 256 MB |
Upgrade Type | System specific |
RAM
Type | DRAM memory module |
Technology | RDRAM (RAMBUS) |
Form Factor | RIMM 184-PIN |
Speed | 600 MHz (PC600) |
Data Integrity Check | ECC |
Module Configuration | 128 x 18 |
Lead Plating | Gold |
Portar
Compatible Slots | 1 x memory - RIMM 184-PIN |
Compliance
Package Type | Retail |
Compatible with
Designed For | IBM IntelliStation M Pro 6849, Pro 6868 ¦ IBM IntelliStation Z Pro 6866 |
Specifications
You can significantly improve the performance capability of your IBM PC 300PL systems with non-parity and ECC IBM high-speed RAMBUS RIMM memory upgrades. The ECC products also enhance performance for the IBM IntelliStation E Pro and IntelliStation M Pro systems. The RAMBUS function enables faster performance than fast page mode (FPM), hyperpage mode (EDO), or the more recent Synchronous DRAM (SDRAM) mode memory.
These RAMBUS In-Line Memory Module (RIMM) offerings let you upgrade standard system memory and take advantage of the latest operating systems and applications. The products are available in NP and ECC versions. To optimize the performance of the RAMBUS technology, there is a limitation of 32 devices on a particular channel. The RAMBUS signal channel is a high-quality terminated transmission line as contrasted with memory buses used in previous technologies. Memory sockets not occupied with RIMMs must be populated with "jumper" cards for the signals in the channel to be properly terminated.