Multiple environments into a single server or PC.Ībstracting the software away from the underlying hardware, a world of new Virtualization solutions provide maximum system utilization by consolidating Virtualization Technology (Intel VT) combined with software-based In IT environments, virtualization technologies like hardware-assisted Intel Manageability, security, and flexibility Significantly reduced latency for frequently used data and improved This efficient, multi-core-optimized implementationĬore can access data from faster, more efficient cache subsystem resulting in.Īllocates the shared cache to each processor core based on workload. Lower latency, and higher memory bandwidth. Through efficient perfecting algorithms , Offering stunning memory read/write performance Integrated Memory Controller optimizes data bandwidth with two channels, Smooth HD video playback and mainstream 3D gaming without the need for add-inĬonnectivity options and is dual display capable. HD Graphics with dynamic frequency up to 1GHz delivers Innovative 32nm fabrication technology optimizes thermal performance for reduced power consumption and noise. Simultaneously, resulting in great dual-core performance, breakthrough energyĮfficiency and fast system response time when running multi-threadedĪpplications, or multiple demanding applications. Processor to enable execution of parallel threads or applications Intel Celeron G540 processor includes dual execution cores in a single Processor GraphicsIntel® HD GraphicsGraphics Base Frequency850 MHzGraphics Max Dynamic Frequency1 GHzIntel® Quick Sync VideoNoIntel® InTru™ 3D TechnologyNoIntel® Insider™NoIntel® Wireless DisplayNoIntel® Flexible Display Interface (Intel® FDI)YesIntel® Clear Video HD TechnologyNo# of Displays Supported2
Max CPU Configuration1TCASE69.1☌Package Size37.5mm x 37.5mmSockets SupportedFCLGA1155Low Halogen Options AvailableSee MDDS Max Memory Size (dependent on memory type)32 GBMemory TypesDDR3-1066# of Memory Channels2Max Memory Bandwidth17 GB/s
Intel® vPro TechnologyNoIntel® Hyper-Threading TechnologyNoIntel® Virtualization Technology (VT-x)YesIntel® Virtualization Technology for Directed I/O (VT-d)NoIntel® Trusted Execution TechnologyNoAES New InstructionsNoIntel® 64YesIdle StatesYesEnhanced Intel SpeedStep® TechnologyYesThermal Monitoring TechnologiesYesIntel® Fast Memory AccessYesIntel® Flex Memory AccessYesExecute Disable BitYesIntel® VT-x with Extended Page Tables (EPT)Yes The IIDX cabinet has its own power switch inside the front door so this works perfectly.Launch DateQ3'11StatusLaunchedExpected DiscontinuanceQ3'2013Processor NumberG540# of Cores2# of Threads2Clock Speed2.5 GHzIntel® Smart Cache2 MBDMI5 GT/sInstruction Set64-bitInstruction Set ExtensionsSSE4.1/4.2Embedded Options AvailableYesLithograph圓2 nmMax TDP65 W To get it running I tinned the tips of a short piece of wire and used it to short pins 3 and 4 on the otherwise-unused ATX connector causing the computer to be on any time it’s receiving power. Its front panel connectors are nonstandard, so I can’t connect the power/reset buttons, the LEDs, or the front USB ports.
Instead of a 20 or 24-pin ATX power connector the motherboard is powered only by the 4-pin CPU power connector. The official motherboard also uses the E4690 GPU, but it is built on to the motherboard and provides three outputs instead of two as on the PCI-E version.
The one I got my hands on is just a bare motherboard, not the full LDJ case and power supply from Konami, so I stuck it into a leftover case from an old router PC build: It played well, but I got the chance to swap it for the official motherboard and couldn’t pass it up.
Arcade versions of beatmania IIDX run on Windows XP Embedded PCs since 9th Style, and that PC hardware has been refreshed a few times, most recently with the release of beatmania IIDX 20 Tricoro aka “LDJ”.