Intel Core i5 12500H Processor
Key Details for Intel Core i5 12500H Processor
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Detail Specification of Intel Core i5 12500H Processor
General | |
|---|---|
Brand?The manufacturer or company that produces the processor, such as Intel or AMD. The brand often signifies the processor's architecture and overall quality. | Intel |
Code Name?An internal name used by the manufacturer during the development of a processor architecture. It often indicates the generation or specific design of the processor. | Alder Lake |
Series Name?The marketing name given to a specific family of processors within a brand's lineup, such as Intel Core i7 or AMD Ryzen 5. Series names help categorize processors based on performance and target market. | 13th Generation Intel Core Processor |
Model Name?The marketing name given to a specific family of CPUs within a brand's lineup, such as 'Intel Ultra 5' or 'Intel Ultra 7'. Model names help categorize CPUs based on performance and target market. | Intel Core i5 |
Instruction Set?The set of commands that a processor understands and can execute. Different instruction sets support varying levels of performance and compatibility with software. | X86 |
Launch Date | 01/2022 |
Vertical?The intended market segment or use case for the processor, such as desktop, laptop, server, or embedded systems. It indicates the processor's design and features tailored for specific applications. | Laptop |
CPU | |
|---|---|
Total No. of Cores?The total number of physical processing units within the processor. More cores allow the processor to handle multiple tasks simultaneously, enhancing multitasking performance. | 12 |
No. of P-Cores?The number of Performance cores (P-cores) within the processor. P-cores are designed for high-performance tasks and demanding applications. | 4 |
P-Cores Base Frequency?The standard operating speed of the Performance cores (P-cores), measured in gigahertz (GHz). It indicates the P-cores' baseline performance level. | 2.5 Ghz |
P-Cores Boost Frequency?The maximum speed a P-core can reach under heavy load, measured in gigahertz (GHz). It represents the P-cores' peak performance capability. | 4.5 Ghz |
No. of E-Cores?The number of Efficiency cores (E-cores) within the processor. E-cores are designed for power efficiency and handling background tasks. | 8 |
E-Cores Base Frequency?The standard operating speed of the E-cores, measured in gigahertz (GHz). It indicates the E-cores' baseline performance level. | 1.8 Ghz |
E-Cores Boost Frequency?The maximum speed an E-core can reach under heavy load, measured in gigahertz (GHz). It represents the E-cores' peak performance capability. | 3.3 Ghz |
No. of Threads?The number of virtual processing units a core can handle simultaneously. Threads enable a single core to process multiple instruction streams, enhancing efficiency. | 16 |
L1 Cache?The smallest and fastest cache memory level, located closest to the processor cores. It stores frequently accessed data for rapid retrieval. | 80 KB (per core) |
L2 Cache?A mid-level cache memory that provides a larger storage capacity than L1 cache. It stores data that is less frequently accessed than L1 but more frequently than L3. | 1.25 MB (per core) |
L3 Cache?The largest and slowest cache memory level shared by all processor cores. It stores data that is less frequently accessed than L2 but still needed for efficient operation. | 18 MB (shared) |
L1 Cache(E-core)?The L1 cache memory dedicated to the Efficiency cores (E-cores). It stores frequently accessed data for rapid retrieval by the E-cores. | 96 KB (per core) |
L2 Cache(E-core)?The L2 cache memory dedicated to the Efficiency cores (E-cores). It provides a larger storage capacity than the E-cores' L1 cache. | 2 MB (per module) |
Multiplier?A factor that determines the processor's clock speed by multiplying the base clock frequency. It influences the overall operating speed of the processor. | 25x |
Unlocked Multiplier?Indicates that the processor's multiplier can be adjusted, allowing for overclocking to increase performance beyond the default specifications. | No |
Perfomance Score | |
|---|---|
Cinebench R23 (Single core)?Measures a CPU's single-core performance using Cinema 4D's rendering engine | 1557 |
Cinebench R23 (Multi core)?Multi-Core: Evaluates a CPU's multi-core performance, utilizing all cores for rendering | 15624 |
Cinebench 2024 (Single Core)?Tests single-core efficiency using Redshift rendering engine | 90 |
Cinebench 2024 (Multi Core)?Assesses multi-core performance with Redshift rendering over a 10-minute test | 1102 |
Geekbench 6 (Single Core)?Benchmarks a CPU's single-threaded performance in real-world tasks | 2253 |
Geekbench 6 (Multi Core)?Measures multi-core processing power across various workloads | 15124 |
Package | |
|---|---|
Technology?The process used to create the processor, measured in nanometers (nm). Smaller manufacturing processes typically result in more efficient and powerful processors. | 10 nm |
Base Power Consumption?The typical power consumption of the processor under normal operating conditions, measured in Watts (W). It indicates the processor's energy efficiency. | 45 watt |
Max. Power Consumption?The maximum amount of power the processor can consume under heavy load, measured in Watts (W). It represents the processor's peak power usage. | 95 watt |
Socket?The physical interface on the motherboard where the processor is installed. The socket type determines compatibility between the processor and motherboard. | FCBGA1744 |
Max. Temperature?The maximum safe operating temperature for the processor, measured in degrees Celsius (°C). Exceeding this temperature can lead to performance degradation or damage. | 100 °C |
IGPU | |
|---|---|
IGPU Name?The specific name given to the integrated Graphics Processing Unit (IGPU) by the processor manufacturer. It identifies the IGPU's architecture and capabilities. | Intel Iris Xe Graphics eligible |
Base Frequency?The standard operating speed of the IGPU, measured in megahertz (MHz). It indicates the IGPU's baseline graphics processing power. | 300 MHz |
Boost Frequency?The maximum speed the IGPU can reach under heavy graphics load, measured in megahertz (MHz). It represents the IGPU's peak graphics performance. | 1.30 GHz |
Shading Units?The number of processing units within the IGPU responsible for rendering graphics. More shading units generally result in better graphics performance. | 640 |
TMUs?Texture Mapping Units (TMUs) are processing units within the IGPU that apply textures to 3D surfaces. More TMUs improve the realism and detail of rendered graphics. | 40 |
ROPs?Render Output Units (ROPs) are processing units within the IGPU that handle the final stage of rendering, converting pixel data into an image. More ROPs improve the frame rate and image quality. | 20 |
Execution Units?The number of parallel processing cores within the IGPU. These units execute graphics instructions, and a higher number typically indicates better graphics performance. | 80 |
IGPU Power?The overall graphics processing capability of the integrated GPU. This is measured by how well it can handle graphical tasks, such as video playback and light gaming. | 1.7 TFLOPS |
NPU | |
|---|---|
NPU Name?The specific name given to the Neural Processing Unit (NPU) by the processor manufacturer. It identifies the NPU's architecture and AI processing capabilities. | Intel AI Boost |
Display & Memory Support | |
|---|---|
Memory Support?The types and speeds of RAM that the processor is compatible with. It specifies the maximum amount and speed of RAM that can be used with the processor. | Up to DDR5 4800 MT/s Up to DDR4 3200 MT/s Up to LPDDR5 5200 MT/s Up to LPDDR4x 4267 MT/s |
Max. Display Resolution Support?The highest resolution that the processor's integrated graphics or the processor in conjunction with a dedicated GPU can output to a display. It indicates the maximum visual fidelity the processor can support. | 7680 x 4320 @ 60Hz |
Features | DDR4-3200/LPDDR4x-4266/DDR5-4800/LPDDR5-5200 RAM, PCIe 4, Thr. Dir., DL Boost, GNA, vPro Ess., MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AES, AVX, AVX2, FMA3, SHA |
Product Link | Intel |
Overview: Intel Core i5 12500H Processor
The Intel Core i5 12500H, designed with the advanced Alder Lake architecture, is a highly capable processor optimized for laptops requiring multitasking power and efficient performance. Featuring a hybrid 12-core configuration, integrated Intel Iris Xe Graphics, and AI-powered enhancements, this processor delivers reliable computing for professionals, gamers, and everyday users. With 10nm manufacturing technology, it combines robust processing capabilities with efficient thermal control.
Features and Specifications
Core Configuration for Multitasking Excellence
- Total Cores: 12 (4 Performance Cores (P-Cores) + 8 Efficiency Cores (E-Cores))
- P-Cores:
- Base Frequency: 2.5 GHz
- Boost Frequency: 4.5 GHz
- E-Cores:
- Base Frequency: 1.8 GHz
- Boost Frequency: 3.3 GHz
- P-Cores:
This hybrid architecture is designed to manage complex workloads seamlessly, allocating P-Cores for intensive applications such as gaming, video editing, and creative workflows while relying on E-Cores for efficient multitasking and background operations.
Intel Iris Xe Graphics Integration
- Base Frequency: 300 MHz
- Boost Frequency: 1.30 GHz
- Shading Units: 640
- TMUs: 40
- ROPs: 20
- IGPU Power: 1.7 TFLOPS
Intel Iris Xe Graphics provides robust graphical capabilities for streaming, casual gaming, and multimedia tasks, delivering crisp visuals and smooth performance for a wide range of applications.
Memory and Display Compatibility
- Memory Support:
- DDR5 (up to 4800 MT/s)
- DDR4 (up to 3200 MT/s)
- LPDDR5 (up to 5200 MT/s)
- LPDDR4x (up to 4267 MT/s)
- Maximum Display Resolution: 7680 x 4320 @ 60Hz
The processor supports both modern and legacy memory technologies for versatile laptop configurations. Its compatibility with 8K displays ensures exceptional visual clarity for professional editing and immersive media experiences.
Power Efficiency and Thermal Management
- Base Power Consumption: 45 watts
- Maximum Power Consumption: 95 watts
Optimized for thermal stability and energy efficiency, the Intel Core i5 12500H sustains reliable performance for extended workloads, making it suitable for high-performing laptops.
AI Optimization with Intel AI Boost
- Neural Processing Unit (NPU): Intel AI Boost
Intel AI Boost introduces smarter multitasking by optimizing system operations and delivering adaptive performance enhancements for AI-driven applications, such as intelligent automation and voice recognition.
Use Cases for Intel Core i5 12500H
1. Productivity Laptops for Professionals
With seamless multitasking capabilities, this processor supports office tasks, virtual collaboration, and professional workflows efficiently.
2. Creative Laptops for Designers and Editors
The P-Core and E-Core configuration enables responsive performance for creative applications, including video editing, 3D modeling, and photo editing.
3. Entertainment Machines for Media Enthusiasts
Intel Iris Xe Graphics ensures smooth streaming, casual gaming, and multimedia playback for immersive entertainment experiences.
4. Reliable Everyday Computing Devices
This processor delivers steady performance for daily tasks such as web browsing, documentation, and lightweight multitasking, ensuring energy efficiency for extended usage.
5. AI-Enhanced Systems for Smarter Workflows
With Intel AI Boost, the processor provides adaptive optimizations for AI-powered tools and system enhancements, empowering users with smarter and more efficient computing.