Memory (DRAM) performance is all about the relationship between speed and latency. While the two are closely related, they're not connected in the way you might think. Here's how speed and latency are related at a technical level – and how you can use this information to optimize your memory's performance. Show If you're interested in how much memory your computer should have, read here. The perception and the truth about latencyPerception
Truth
The difference between the perception of latency and the truth of latency comes down to how latency is defined and measured. The latency paradoxLatency is often misunderstood because on product flyers and spec comparisons, it's noted in CAS Latency (CL), which is only half of the latency equation. Because CL ratings indicate only the total number of clock cycles, they don't have anything to do with the duration of each clock cycle, and thus, they shouldn't be extrapolated as the sole indicator of latency performance. By looking at a module's latency in terms of nanoseconds, you can best judge if one module is, in fact, more responsive than another. To calculate a module's latency, multiply clock cycle duration by the total number of clock cycles. These numbers will be noted in official engineering documentation on a module's data sheet. Here's what these calculations look like. TechnologyModule Speed (MT/s)Clock Cycle Time(ns)CAS LatencyLatency (ns)SDR 100 8.00 3 24.00 SDR 133 7.50 3 22.50 DDR 333 6.00 2.5 15.00 DDR 400 5.00 3 15.00 DDR2 667 3.00 5 15.00 DDR2 800 2.50 6 15.00 DDR3 1333 1.50 9 13.50 DDR3 1600 1.25 11 13.75 DDR4 1866 1.07 13 13.93 DDR4 2133 0.94 15 14.06 DDR4 2400 0.83 17 14.17 DDR4 2666 0.75 19 14.25 DDR4 2933 0.68 21 14.32 DDR4 3200 0.62 22 13.75 DDR5 4800 0.42 40 16.67 What is latency and the latency equation?At a basic level, latency refers to the time delay between when a command is entered and when the data is available. Latency is the gap between these two events. When the memory controller tells the memory to access a particular location, the data must go through a number of clock cycles in the Column Address Strobe (CAS) to get to its desired location and complete the command. With this in mind, there are two variables that determine a module's latency:
Combining these two variables gives us the latency equation: latency (ns) = clock cycle time (ns) x number of clock cycles In the history of memory technology, as speeds have increased, (which means clock cycle times have decreased), the CAS latency values have also increased, however because of the faster clock cycle the true latency as measured in nanoseconds has remained roughly the same. By optimizing the balance between the maximum speed your processor is capable of and the lowest latency memory available within your budget, you are able to achieve a higher level of performance using newer, faster, and more efficient memory. Which is more important: speed or latency?Based on in-depth engineering analysis and extensive testing in the Crucial Performance Lab, the answer to this classic question is BOTH! Speed and latency both play a critical role in system performance, so when looking to upgrade we recommend: |
