To put it in simple and non technical words: The delay time between a memory controller try to access a particular memory address and the time this data is ready in the output pin's. measure unit is usually Cycles.
A Simple example: a memory that works on 100Hz, 1 CL=0.01seconds. Basically, the lesser the better, but depends on the memory freq.
Cl-Cl is more covalent than H-Cl
In cl-cl bond 1 electron is sahred by each of Cl atom.
1 mole Cl = 35.453g Cl 28.4g Cl x 1mol Cl/35.453g Cl = 0.801 mole Cl
Cl is chlorine and Ca is calcium.
S-Cl
"CL" stands for "Column Access Strobe Latency," which refers to the time it takes for a memory module to access data within a column. "RL" stands for "Row Access Strobe Latency," which refers to the time it takes for a memory module to access data within a row. These latency values are important in determining the speed and performance of memory modules.
i believe it refers to "cas latency"
Cl-Cl is more covalent than H-Cl
cl3 CL - CAS Latency (column access strobe) refers to the number of clock cycles taken to read or write a column of data off a memory module. The lower the latency, the faster the read/write. RL - Row access strobe Latency (RAS Latency), similarlly, measures cycles taken to read\write a row of data.
CL RATING EX. CL2 is better than CL3 and Cl1 would be the best
CL: (CAS Latency) or Column Address Strobe Latency is a measurement of delay of the chip's process. So the lower the CL number the lower the latency will be. So your answer is cl5.
Cl- Cl-
In cl-cl bond 1 electron is sahred by each of Cl atom.
1 mole Cl = 35.453g Cl 28.4g Cl x 1mol Cl/35.453g Cl = 0.801 mole Cl
cl=chlorine
Cl is chlorine and Ca is calcium.
cl / H - C - cl / cl