12th Generation Intel® Core™ Processors
Datasheet, Volume 1 of 2
Legal Disclaimer Revision History Introduction Technologies Power Management Thermal Management Memory USB-C* Sub System PCIe* Interface Direct Media Interface and On Package Interface Graphics Display Camera/MIPI Signal Description Electrical Specifications Package Mechanical Specifications CPU And Device IDs
Security Technologies Intel® Trusted Execution Technology Intel® Advanced Encryption Standard New Instructions Perform Carry-Less Multiplication Quad Word Instruction Intel® Secure Key Execute Disable Bit Boot Guard Technology Intel® Supervisor Mode Execution Protection Intel® Supervisor Mode Access Protection Intel® Secure Hash Algorithm Extensions User Mode Instruction Prevention Read Processor ID Intel® Multi-Key Total Memory Encryption Intel® Control-flow Enforcement Technology KeyLocker Technology Devil’s Gate Rock
Power and Performance Technologies Intel® Smart Cache Technology IA Cores Level 1 and Level 2 Caches Ring Interconnect Intel® Performance Hybrid Architecture Intel® Turbo Boost Max Technology 3.0 Intel® Hyper-Threading Technology Intel® Turbo Boost Technology 2.0 Enhanced Intel SpeedStep® Technology Intel® Thermal Velocity Boost (Intel® TVB) Intel® Speed Shift Technology Intel® Advanced Vector Extensions 2 (Intel® AVX2) Intel® 64 Architecture x2APIC Intel® Dynamic Tuning Technology Intel® GMM and Neural Network Accelerator Cache Line Write Back Remote Action Request User Mode Wait Instructions
Power Management Advanced Configuration and Power Interface (ACPI) States Supported Processor IA Core Power Management Processor AUX Power Management Processor Graphics Power Management System Agent Enhanced Intel SpeedStep® Technology Rest Of Platform (ROP) PMIC PCI Express* Power Management TCSS Power State
Thermal Management Features Adaptive Thermal Monitor Digital Thermal Sensor PROCHOT# Signal PROCHOT Output Only Bi-Directional PROCHOT# PROCHOT Demotion Algorithm Voltage Regulator Protection using PROCHOT# Thermal Solution Design and PROCHOT# Behavior Low-Power States and PROCHOT# Behavior THRMTRIP# Signal Critical Temperature Detection On-Demand Mode MSR Based On-Demand Mode I/O Emulation-Based On-Demand Mode
System Memory Interface Processor SKU Support Matrix Supported Memory Modules and Devices System Memory Timing Support Memory Controller (MC) Memory Controller Power Gate System Memory Controller Organization Mode (DDR4/5 Only) System Memory Frequency Technology Enhancements of Intel® Fast Memory Access (Intel® FMA) Data Scrambling Data Swapping LPDDR5 Ascending and Descending LPDDR4x CMD Mirroring DDR I/O Interleaving DRAM Clock Generation DRAM Reference Voltage Generation Data Swizzling Error Correction With Standard RAM Post Package Repair (PPR)
Signal Description System Memory Interface PCI Express* Graphics (PEG) Signals Direct Media Interface (DMI) Signals Reset and Miscellaneous Signals Display Interfaces USB Type-C Signals MIPI* CSI-2 Interface Signals Processor Clocking Signals Testability Signals Error and Thermal Protection Signals Power Sequencing Signals Processor Power Rails Ground and Reserved Signals Processor Internal Pull-Up / Pull-Down Terminations
Processor Interfaces DC Specifications DDR4 DC Specifications DDR5 DC Specifications LPDDR4x DC Specification LPDDR5 DC Specification PCI Express* Graphics (PEG) Group DC Specifications Digital Display Interface (DDI) DC Specifications CMOS DC Specifications GTL and OD DC Specification PECI DC Characteristics
Enhanced Intel SpeedStep® Technology
- Multiple frequencies and voltage points for optimal performance and power efficiency. These operating points are known as P-states.
- Frequency selection is software controlled by writing to processor MSRs. The voltage is optimized based on the selected frequency and the number of active processors IA cores.
- Once the voltage is established, the PLL locks on to the target frequency.
- All active processor IA cores share the same frequency and voltage. In a multi-core processor, the highest frequency P-state requested among all active IA cores is selected.
- Software-requested transitions are accepted at any time. If a previous transition is in progress, the new transition is deferred until the previous transition is completed.
- The processor controls voltage ramp rates internally to ensure glitch-free transitions.