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Synchronous DRAM offers many advantages in terms of its speed and operation. The timing and operation of the control signals is key to the smooth operation of this form of memory.
In order for the SDRAM to operate correctly, the control line timing needs to handled correctly for accurate operation.
There are naturally issues of operation and timing that are different to other forms of memory.
SDRAM control signal operation
The asynchronous operation of DRAM caused many design challenges because it interfaced to a synchronous processor system. These issues became more apparent as the processor speeds increased.
Synchronous dynamic random access memory, SDRAM runs in a synchronous fashion with the commands are synchronised to the rising edge of the clock.
There are various actions that can be taken by the memory. These are determined by the state of the command signals at the rising edge of the clock.
There are six control signals that are used for SDRAM operation.
- /CAS Column Address Strobe Along with /RAS and /WE, this control line on the SDRAM selects one of 8 commands.
- CKE Clock Enable When this signal is low, and after one clock cycle, the SDRAM is inhibited and no commands are interpreted despite the state of other lines.
The SDRAM is made active on the rising edge of the clock after CKE is made high.
- /CS Chip Select This line is used when several chips are used together and it enables selection of a particular SDRAM. When this line is high, the chip ignores all other inputs except for CKE.
- DQM Data Mask The DQM line is used to suppress the I/O data when it is high. For read actions, when the DQM line is asserted high two cycles before a read cycle, the read data is not output from the chip.
There is one DQM line per 8 bits on a x16 memory chip or DIMM
- /RAS Row Address Strobe The /RAS line is a command bit which enables election of one of eight commands when it is asserted along with /CAS and /WE.
- /WE Write enable This line is generally used in conjunction with /CAS and /RAS, but it normally distinguishes read-like from write-like commands.
There are many commands that can be sent. Most operations comprise a number of different commands. For example a typical sequence may comprise the following commands:
- Activate: This sends a row address to the SDRAM to open a row, i.e. page.
- Deselect commands: These commands within the overall SDRAM operation satisfy the timing requirements for the memory.
- Read or Write: This is sent with the column address. With a row open, several read or write commands can be undertaken. This enables much faster activity as new rows do not need to be opened or deactivated.
- Precharge : A precharge command is required to close a row before a new row can be opened.
SDRAM has significant advantages over the more traditional RAM. One of the ways it has been able to achieve this is by utilising the timing of the system to achieve more efficient usage of time. Hence SDRAM timing is of great importance.
There are a number of SDRAM timings that are of great importance:
- CAS latency: The CAS latency is the time between supplying a column address and then receiving back the corresponding data. For any system, the CAS latency is programmed into the SDRAM's mode register and expected by the DRAM controller. It is defined in terms of a specific number of clock cycles.
- Read cycle time: This element of SDRAM timing is the time between successive read operations to an open row. Typical figures are of the order of 5 ns.
These are the main controls and timing elements that are used for SDRAM operation. These controls and the timing elements enable the SDRAM to interface to the timing of the processor and in this way operate in an effective manner.
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