This area of study helped develop an understanding around the behavior of materials under such conditions, which was crucial for the advancement of numerous technological applications. His doctoral work investigated the intricate changes that occur within metal alloys when subjected to the flow of electric current.
Army during WWII, he returned to the US to complete graduate studies in physics under solid-state physicist Clarence Zener at the University of Chicago in 1952. After serving as a meteorologist in the U.S. “He was a leader at the cutting edge of scientific research throughout the many decades of his career, and he never ceased searching for innovative energy-storage solutions.”īorn in Germany in 1922, Goodenough grew up in New Haven, Connecticut, and embarked on his illustrious scientific journey in 1944, when he successfully completing his undergraduate studies in mathematics at Yale University. “John’s legacy as a brilliant scientist is immeasurable - his discoveries improved the lives of billions of people around the world,” said UT Austin President Jay Hartzell. Goodenough’s visionary efforts have played an instrumental role in revolutionizing the way we generate, store, and utilize energy, opening up new frontiers. His legacy as a pioneering figure in the field of science is etched in history, primarily due to his groundbreaking contributions to the development of the lithium-ion battery. Goodenough, passed away on Sunday, June 25, at the remarkable age of 100.
#RANDOM ACCESS MEMORY IMAGE FULL#
For highly demanding tasks, such as high-end gaming, 3D rendering, or professional video editing, a full dual-channel configuration will offer superior performance.Renowned scientist and Nobel Laureate, John B. Flex Mode enables some of the features of dual-channel mode, but it isn't the same, and you don't get like-for-like performance as if you were using two matching RAM modules. However, Flex Mode isn't without limitations. Matching RAM modules is always preferred, but sometimes life doesn't work like that.
The flexibility this offers could be useful for some users, allowing an increase in RAM and performance without issue. In some cases, this is a cost-effective way of squeezing some extra performance out of your machine without having to shell out for new matching RAM modules. For example, in the image below, the linked RAM slots use the same colors.īenefits and Limitations of RAM Flex Modeįlex Mode is a useful tool with both benefits and limitations.įor example, Flex Mode increases overall system performance if you're using unmatched RAM modules, allowing many of the benefits of dual-channel RAM on the matched portion. If you run two RAM modules in linked RAM slots, you're running a dual-channel configuration. If you use one RAM slot, your system will run in single-channel mode. More accurately, RAM channels detail the number of memory pathways available between the memory and the CPU, with the RAM slots able to be linked to deliver greater memory performance. RAM channels typically refer to the number of slots in use on your motherboard. So, what is RAM Flex Mode, and how does it manage your system memory? What Is RAM Flex Mode?įlex Mode is Intel's naming for the memory configuration mode that bridges the gap between single-channel and dual-channel memory operations, offering improved performance when mismatched RAM is used.įirst launched in 2004, Intel Flex Mode was a response to the realization that not all computer users can afford or manage to maintain symmetrical RAM configurations-in other words, having identical memory sticks in both slots.
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