EKWB Intros New GeForce GTX 680 Water Block


EK Water Blocks, Ljubljana based premium water cooling gear provider, is excited to present the EK-FC680 GTX SOC, a new Full Cover (FC) water block for Gigabyte's premium SuperOverclock (GV-N680SO-2GD) edition graphic card.

EK-FC680 GTX SOC is a high performance full-cover water block for engineered specifically for GIGABYTE design GeForce GTX 680 Super OverClock (SOC) series graphics cards. Please check our Cooling Configurator online compatibility system for detailed compatibility list. This water block directly cools the GPU, RAM as well as VRM (voltage regulation module) as water flows directly over these critical areas thus allowing the graphics card and it's VRM to remain stable under high overclocks. EK-FC680 GTX SOC water block also features a very high flow design therefore it can be easily used in liquid cooling systems using weaker water pumps.

Base is made of nickel plated electrolytic copper while the top is made of quality POM Acetal material. The sealing is performed by quality rubber washers. Screw-in brass standoffs are pre-installed and allow for safe, painless installation procedure. Block is mounted with enclosed M3x4 DIN7985 screws and plastic washers.

EK also encloses two-slot I/O bracket which replaces the original three-slot, in order to make installation of mutliple graphics cards easier.

Up to four EK-FC680 GTX SOC series water blocks can be interconnected with EK-FC Bridge & Link system. Additionally this water block lines up with EK-FC680 GTX(+) as well as EK-FC680 GTX FTW series water blocks thus even further expanding users choice of graphics cards. The correct connection link for this water block is already enclosed with the product.

Enclosed: 
- EK-FC680 GTX SOC series water block 
- EK-FC Link
- 2-slot I/O bracket
- mounting mechanism with screw-in brass standoffs
- thermal pads

source: http://www.techpowerup.com/177009/EKWB-Intros-New-GeForce-GTX-680-Water-Block.html

EVGA GeForce GTX 670 FTW LE Detailed



EVGA's high-end air-cooled GeForce GTX 670 FTW graphics card, which launched with the rest of the GTX 670 lineup, is largely based on the GeForce GTX 680 NVIDIA-reference design, including its cooler and PCB, and features clock-speeds of 1006 MHz GPU and 6208 MHz memory. The company recently launched a newer SKU based on the same exact design, the EVGA GTX 670 FTW LE, which goes lighter on the clock speeds. The EVGA GTX 670 FTW LE (model: 02G-P4-2676-KR), features a GPU base clock of 941 MHz, GPU Boost clock of 1019 MHz, and 6008 MHz memory, which is still a notch above NVIDIA-reference speeds. It is priced at US $390.

New Toshiba STT-MRAM Memory Element Promises World's Best Power Consumption


Toshiba Corporation today announced that the company has developed a prototype memory element for a spin transfer torque magnetoresistive random access memory (STT-MRAM) that achieves the world's lowest power consumption yet reported, indicating that it has the potential to surpass the power consumption efficiency of SRAM as cache memory.

Like all digital products, mobile devices, including smartphones and tablet PCs, rely on high-speed memory to supply the main processor with essential instructions and frequently requested data. Until now SRAM has provided the cache-memory solution. However, improving the performance of SRAM to match advances in mobile products results in increasing current leakage, both during operation and in standby mode, degrading power performance.


MRAM, a next-generation memory based on magnetic materials, has emerged as an alternative to SRAM because it is non-volatile, cutting leak current during standby status. However, until now MRAM power consumption has exceeded that of SRAM, throwing up a major barrier to practical application.

Toshiba's new memory element advances the company's pioneering work in STT-MRAM and overcomes the longstanding operating trade-off by securing improved speed while reducing power consumption by 90 percent. The improved structure is based on perpendicular magnetization and takes element miniaturization to below 30 nm. Introduction of this newly designed "normally-off" memory circuit with no passes for current to leak into cuts leak current to zero in both operation and standby without any specific power supply management.

Toshiba has confirmed the performance of the new STT-MRAM memory element with a highly accurate processor simulator. This modeled application of an STT-MRAM integrating the memory as cache memory and recorded a two-thirds reduction in power consumption by a standard mobile chip set carrying out standard operating functions, a result confirming that the new MRAM element has the lowest power consumption yet achieved. This clearly points the way toward the first MRAM with the potential to surpass SRAM in practical operation.

Going forward Toshiba expects to bring the new memory element to STT-MRAM cache memory for mobile processors integrated into smartphones and tablet PCs, and will promote accelerated research and development toward that end.

This work includes results from the "Normally-off Computing" project funded by Japan's NEDO (New Energy and Industrial Technology Development Organization). Toshiba will present three papers on the new STT-MRAM and its technologies on December 11 and 12 at IEDM, the International Electron Device Meeting held by IEEE in San Francisco from December 10.

source: http://www.techpowerup.com/176937/New-Toshiba-STT-MRAM-Memory-Element-Promises-World-s-Best-Power-Consumption.html