Synchronous Dynamic RAM. Computer memory that is fast enough to be synchronised with the CPU clock, thus eliminating wait states.
RAM that is able to synchronize itself with the processor enabling high-speed transfer of data (600 MHz) to/from the processor.
A faster version of DRAM, mostly employed for main memory
Acronym for Synchronized Dynamic Random Access Memory used as a temporary place to perform computer calculations or processes.
Synchronous Dynamic RAM. A high-speed RAM that can synchronize itself with the clock speed of the microprocessor's data bus.
a type of DRAM designed to deliver bursts of data at very high speeds using automatic addressing, multiple page interleaving, and a synchronous (or clocked) interface. SDRAM can support bus speeds of up to 100MHz today and will probably support bus speeds of up to 200MHz in the future.
Ram that can handle bus speeds of up to 100 MHz. SDRAM allows two pages of memory to be opened at the same time. It is also synchronized with the system clock.
Stands for "Synchronous Dynamic Random Access Memory." Yeah, it's a mouthful, ...
Synchronous Dynamic Random Access Memory. High-speed DRAM that adds a separate clock signal to the control signals. SDRAM can transfer bursts of non-contiguous data at 100 MB per second.
Like DRAM but arranged with a more efficient data pathway which allows for faster throughput.
Stands for synchronous dynamic random Access memory (see also DRAM). SDRAM incorporates new features that make it faster than standard DRAM and EDO memory.
( ynchronous ynamic RAM) is so-called because it can keep two sets of memory addresses open simultaneously. By transferring data alternately from one set of addresses, and then the other, SDRAM cuts down on the delays associated with non-synchronous RAM, which must close one address bank before opening the next. [] The Serial Port is so called because it transmits the eight bits of a byte of data along one wire, and receives data on another single wire (that is, the data is transmitted in serial form, one bit after another).
Synchronous Dynamic Random Access Memory, high-speed memory measured in megabytes (MB). SDRAM enables a system to run applications and temporarily store documents that are being worked on.
Synchronous DRAM. A type of DRAM in which all input and output information is synchronized to a master clock signal. SDRAMs also incorporate burst modes, allowing a significant increase in maximum data-transfer rate over standard DRAMs.
synchronous dynamic RAM. A type of memory that synchronises itself with the speed of the PC's bus and can run at speeds up to 133MHz, about twice as fast as EDO RAM.
See Synchronous Dynamic Random Access Memory.
Synchronous Dynamic Random Access Memory. A DRAM that transfers data in synchronization with the system clock, performing one data transfer for each clock cycle. Earlier DRAM types such as FMP (fast page mode) and EDO (extended data out) were asynchronous (and slower), because they needed a carefully timed series of command signals to initiate a data transfer.
Synchronous DRAM: memory whose refresh rate matches the speed of the system bus.
synchronous dynamic random-access memory] A particular form of RAM.
Acronym for synchronous dynamic random-access memory. SDRAM is a memory technology that improves the performance of your computer's memory subsystem by reducing the need for wait states. SDRAM devices have a synchronous interface to the devices to which they are connected and are governed by the system clock. These features reduce the need for wait states often required for conventional memory devices to ensure that timing signals have been set up correctly.
synchronous dynamic random access memory, a type of memory used by most current low to mid range systems for their main memory.
Synchronous DRAM (SDRAM)times all address, data and control signals to a CPU's system clock. This function eliminates the bandwidth bottleneck between your memory and CPU to maximize overall system performance.
Synchronous Dynamic Ramdom Access Memory.
Synchronous Dynamic Random Access Memory. is a relatively new type of dram, which synchronizes itself with the CPU’s bus and is capable of running at higher clock speeds than conventional memory.
Synchronous Dynamic Random Access Memory. A 168-pin DIMM module with access time of between 7.0 and 8.5 nanoseconds and burst transfer rates of either 100 or 133 Mb/sec.
Synchronous Dynamic Random Access Memory. A faster type of memory that synchronizes with the CPU. Its architecture allows it to run fast enough to handle the 100MHz system bus
(SDRAM, Synchronous DRAM) A form of DRAM that can run at much higher clock speeds than conventional memory and therefore works faster.
Synchronous dynamic RAM - SDRAM incorporates new features that allow it to keep pace with bus speeds as high as 100 MHz. It does this primarily by allowing two sets of memory addresses to be opened simultaneously. Data can then be retrieved alternately from each set, eliminating the delays that normally occur when one bank of addresses must be shut down and another prepared for reading during each request.
synchronous dynamic random access memory. A form of dynamic RAM that adds a separate clock signal to the control signals.
A type of high-speed memory. Abbreviation for Synchronous DRAM. It runs at a higher clock speed than conventional memory.
Synchronous DRAM. A type of memory that synchronises itself with the speed of the CPU's bus and can run at upto 133MHz. It's about twice as fast as EDO RAM and the latest SDRAM can run at 133MHz on PC's that support this speed.
Synchronous dynamic random access memory (SDRAM) chips are very fast and are synchronized with the system clock.
Synchronous Dynamic Random Access Memory. Fast memory capable of transmitting data on every clock cycle, skipping the wait states and improving system performance.
Synchronous Dynamic Random Access Memory: a new type of DRAM that can run at much higher clock speeds than conventional memory. SDRAM actually synchronizes itself with the CPU's bus and is capable of running at 100 MHz, about three times faster than conventional FPM RAM, and about twice as fast as EDO DRAM and BEDO DRAM. SDRAM is replacing EDO DRAM in many newer computers.
This is an acronym for Synchronous Dynamic Random Access Memory. It's a type DRAM that employs a clock to synchronize signal on a memory chip. The clock is synchronized with the CPU clock, making the memory chips function in synch with the CPU.
As opposed to DRAM (dynamic random access memory), SDRAM (synchronized DRAM) type memory is synchronized with the CPU's optimum clock speed, in order to increase system performance.
synchronous dynamic random-access memory — A type of DRAM that is synchronized with the optimal clock speed of the microprocessor.
(Synchronous Dynamic RAM): Used for a computer's main memory, SDRAM is a dynamic RAM that performs somewhat better than ordinary RAM.
Synchronous DRAM (more advanced version of RAM)
A type of RAM that is considerably faster and more reliable than standard RAM.
Synchronous Dynamic Random Access Memory or Synchronous DRAM. A DRAM designed to deliver bursts of data at very high speed using automatic addressing, multiple page interleaving and a synchronous (or clocked) interface.
This is the most common type of memory used today and is a type of DIMM. SDRAM (like all memory) is measured by its access time, CAS latency, its rating, and other timings. Recent ratings are PC100 and PC133, and this memory is required for newer Pentium II and III CPUs.
Synchronous Dynamic RAM. The type of memory to be found in most modern PCs. It is significantly cheaper than its biggest rival, RDRAM
(Synchronous DRAM) A DRAM technology that uses a clock to synchronize signal input and output on a memory chip. The clock is coordinated with the CPU clock so the timing of the memory chips and the timing of the CPU are "in synch." The synchronization eliminates time delays and allows for fast consecutive read and write capability, thereby increasing the overall performance of the computer. SDRAM has two separate memory banks that operate simultaneously, while one bank prepares for access, the other is being accessed. SDRAM allows the CPU to access memory approximately 25 percent faster than EDO memory because it is controlled by the system clock. SDRAMs can only be used in computers designed for it and cannot be mixed with any other type of memory. SDRAM can operate at 100MHz, 133Mhz and features a burst mode that allows it to address blocks of information instead of small data bits.
(Synchronous DRAM) - A DRAM technology that uses a clock to synchronize signal input and output on a memory chip. The clock is coordinated with the CPU clock so the timing of the memory chips and the timing of the CPU are in synch. Synchronous DRAM saves time in executing commands and transmitting data, thereby increasing the overall performance of the computer. SDRAM allows the CPU to access memory approximately 25 percent faster than EDO memory.
Synchronous dynamic random access memory; often used in digital cameras and other computing devices. SDRAM is a relatively new type of memory that runs at higher clock speeds than traditional memory.
Abbreviation for "Synchronous Dynamic Random Access Memory"] A superior form of DRAM that operates at higher clock speed thanks to a "bursting" technology in the DRAM that predicts the location of the memory address likely to be accessed next.
Synchronous dynamic random access memory (SDRAM). These memory modules are based on standard dynamic RAM chips, but have sophisticated features that make them considerably faster.
Synchronous DRAM. Used as a substitute for Video RAM (VRAM.)
Synchronous dynamic random access memory delivers bursts of data at high speeds using a synchronous interface. Its is actually SDR SDRAM (single data rate SDRAM) but is usually used to referred to as just "SDRAM."
Synchronous Dynamic Random Access Memory - Dynamic RAM requires "refresh" to keep the memory contents intact. Synchronous implies that all inputs and outputs rely on a clock. This results in faster accesses than conventional DRAM. In general, DRAM has the advantage of very high memory densities and fairly low power.
Synchronous dynamic random access memory. An electronic standard where the inputs and outputs of SDRAM data are synchronized to an externally-supplied clock, allowing for extremely fast consecutive read and write capacity.
Resources galore are being poured into SDRAM development, and it has begun making its appearance in the PC ads. The reason for its increasing popularity is twofold. First, SDRAM can handle bus speeds of up to 100 MHz, and these are fast approaching. Second, SDRAM is synchronized with the system clock itself, a technical feat that has eluded PC engineers until now. SDRAM technology allows two pages of memory to be opened simultaneously. A new standard for SDRAM is being developed by the SCIZZL Association at Santa Clara University (California) along with many industry leaders. Called SLDRAM, this technology improves on SDRAM by offering a higher bus speed and by using packets (small packs of data) to take care of address requests, timing, and commands to the DRAM. The result is less reliance on improvements in DRAM chip design, and ideally a lower-cost solution for high-performance memory. Watch for SL-DRAM in the near future.
SDRAM means synchronous dynamic random access memory which is a type of solid state computer memory.