Power delivery is now the limiting factor
Power delivery and power efficiency has become the largest concern in large scale computing systems. The industry has witnessed a dramatic increase in power consumed by processors with the advent of ASICs and GPUs processing complex AI functions. Rack power has also subsequently increased with AI capability being utilized in large scale learning and inferencing application deployments. In most cases, power delivery is now the limiting factor in computing performance as new CPUs look to consume ever increasing currents. Power delivery entails not just the distribution of power but also the efficiency, size, cost and thermal performance.
Progression of Vicor customer GPU/CPU peak current requirements
The Vicor 48V ecosystem of modular components
Vicor has established a portfolio of products enabling AC or HV distribution and Factorized Power Solutions for 48V direct to the load conversion. 48V distribution provides a maximum SELV voltage that reduces distribution losses by 16X over conventional 12V distribution. All of these products demonstrate high density, high efficiency, and cost performance able to meet the needs of large scale computing systems utilizing the most advanced CPUs, GPUs, or ASICs.
AC power in a rack or tank
The Vicor PowerTablet represents a solution for high power computing racks and immersion tank systems. The PowerTablet (RFM9459) provides 12kW in a 9.5 x 6 inch tablet form factor. The planar form factor enables easy integration into advanced cooling systems and also enables the option to re-deploy AC power in a rack or tank over conventional solutions enabling higher-density solutions.
Enabling HVDC distribution
The BCM® (Bus Converter Module) can be used to convert HVDC to an isolated SELV output for 48V distribution. The through hole mounted package has a 61 x 23 x 7.2mm form factor that enables the distribution of HVDC within a rack or directly into the servers, allowing for optimal placement within air, liquid, or immersion-cooled systems. The fixed ratio conversion enables a peak efficiency of 98% with up to 35A of output current for high power processors, memory, solid-state drives, and additional features.
Solutions for powering the processor
Factorized Power Architecture
Factorized Power Architecture factorizes the power into the dedicated functions of regulation and transformation. Both of these functions are able to be optimized and deployed individually to provide a high density and high-efficiency solution. This solution is a departure from the conventional 12V multiphase scheme that relies on a parallel array of switching regulators and inductors. This conventional scheme is difficult to scale: more power means more regulators to be paralleled, overall size increases and distance of the high current delivery to the processor increases. All results in more losses incurred in the system. Learn more about Vicor Factorized Power Architecture
Power-on-Package Lateral Power Delivery (LPD)
High-current delivery is provided via the MCM modules that can be placed adjacent to the processor either on the motherboard or on the processor substrate. Placement on the substrate minimizes PDN losses and reduces the number of processor substrate BGA pins required for power.
Power-on-Package Vertical Power Delivery (VPD)
VPD further eliminates power distribution losses and VR PCB board area consumption. VPD is similar in design to the Vicor LPD solution, with the added integration of bypass capacitance into the current multiplier or GCM module.