Understanding CORSAIR CUDIMMs: A Technical Deep Dive

The new CORSAIR CUDIMMs (Clocked Unbuffered Dual In-line Memory Modules) are engineered for high-performance computing. Built upon the latest DDR5 architecture, these memory modules are designed to handle the demanding workloads of gaming, content creation, and professional applications. All while still being backwards compatible (at 6,000MT/s or below) with previously available DDR5 platforms.

Based on the same DDR5 architecture, CUDIMMs enhance what is offered by the DDR5 UDIMM architecture.

Until now, the fastest DDR5 UDIMMs paired with a good CPU and high-end dual-DIMM motherboard could reach 8,000MT/s. CUDIMMs raise that bar and on Intel® Z890 motherboards, the memory speed can go over 9,000 MT/s. This leap in data transfer speed is key for users running applications sensitive to memory bandwidth or engaging in memory overclocking.

CORSAIR CUDIMMs achieve these high speeds through a combination of carefully selected DRAM ICs, a new 10-layer PCB, and the new Clock Driver IC (CKD).

One of the most significant innovations with CUDIMMs is the integration of a Clock Driver IC (CKD), which enhances the clock signal distribution across the module. This is crucial for maintaining system stability and performance, particularly in high-frequency memory operations.

The CKD serves as a buffer for the clock signals sent from the CPU to the memory module. It reconditions both the timing and voltage amplitude of these signals, enhancing signal integrity by reducing clock jitter and ensuring synchronized timing across each memory chip. This is especially critical for high-speed memory, where even minor timing issues can cause errors or system instability.

Note: CA bus eye diagrams at different DRAM locations - Simulation results at 11.6MT/s (after additional tuning).

In CUDIMMs, clock signals are no longer the bottleneck in achieving higher frequencies. However, as the signals on the CA (Command and Address) bus are not buffered, our simulation indicate that the CA bus could eventually become a bottleneck for CUDIMMs. To address this, additional tuning is necessary to match the demands of extremely high DRAM speeds. At CORSAIR, innovation remains at the forefront as we strive to deliver the highest-frequency memory modules with unmatched reliability.

As DDR5 memory operates at increasingly higher frequencies, ensuring that all memory chips receive synchronized and stable clock signals, it becomes more challenging. The CKD buffers and re-distributes the clock signal, ensuring each chip on the module gets the same precise timing information. This leads to better signal integrity and minimizes clock jitter, which is crucial for high-speed data transfers and overclocking.

With the support of the CKD, CORSAIR CUDIMMs are optimized for overclocking. These modules can handle higher voltages and speeds while maintaining signal quality, making them attractive for enthusiasts to push their systems to the limit.

CKDs can operate in different modes such as Single PLL mode and Bypass mode.

• Bypass mode - the CKD doesn’t regenerate and amplify the signal; basically, it works as a traditional UDIMM. This is used for compatibility on older DDR5 platforms. However, speeds may be limited to 6,000MT/s.
• Single or Dual PLL mode - the user gets all the advantages of the CKD that are explained above. Currently this is only supported by the latest Intel® Z890 platform.

As of now, CUDIMMs are fully compatible with Intel platforms. AMD doesn’t support the Single or Dual PLL modes yet. Although if you plug a CUDIMM into an AMD platform, they tolerate the use of it by operating in Bypass mode only.

CORSAIR CUDIMMs are easily identified by the shiny polished heat spreaders.

Also, by the forth letter of the part number. CUDIMM modules will have a C, while standard UDIMMs will have a number on the 4th letter. For example:

CMKC: VENGEANCE DDR5 CUDIMM

CMHC: VENGEANCE RGB DDR5 CUDIMM