INTEL Core i3-13100 3.4Ghz FC-LGA16A 12M Cache Boxed CPU

The Intel Core i3 processor is the perfect entry point for a fast, responsive PC experience. Do not let too many open applications slow you and your PC down. Get smart performance now.




36 Months Bring-In Warranty

Product Type


Type / Form Factor

Intel Core i3 13100 (13th Gen)

Number of Cores


Number of Threads

8 threads


12 MB

Cache Memory Details

Smart Cache – 12 MB

L2 – 5 MB

Processor Qty


Clock Speed

3.4 GHz

Max Turbo Speed

4.5 GHz

Compatible Processor Socket

FCLGA1700 Socket

Manufacturing Process

10 nm

Thermal Design Power

89 W

Thermal Specification

100 °C

PCI Express Revision


PCI Express Configurations

1×16+4, 2×8+4

PCI Express Lanes Qty


Architecture Features

Enhanced SpeedStep technology, Hyper-Threading Technology, Execute Disable Bit capability, Intel Virtualization Technology, Intel 64 Technology, streaming SIMD extensions 4.1, streaming SIMD extensions 4.2, Intel Turbo Boost Technology 2.0, Intel AES New Instructions (AES-NI), Thermal Monitoring Technologies, Intel Virtualization Technology for Directed I/O (VT-d), Idle States, Intel VT-x with Extended Page Tables (EPT), Intel Secure Key, Intel Advanced Vector Extensions 2 (AVX2.0), Intel OS Guard, Intel Turbo Boost Max Technology 3.0, Intel Speed Shift Technology, Intel Volume Management Device (VMD), Intel Boot Guard, Intel Deep Learning Boost (DL Boost), Intel Control-Flow Enforcement Technology, Intel Gaussian and Neural Accelerator 3.0, Intel Thread Director, Instruction Set 64-bit, Intel Threat Detection Technology (TDT), Intel Standard Manageability (ISM), Mode-based Execute Control (MBEC)


Intel UHD Graphics 730

Base Frequency

300 MHz

Max Dynamic Frequency

1.5 GHz

Max Supported Resolution

5120×3200@120Hz (eDP), 7680×4320@60Hz (DP), 4096×2160@60Hz (HDMI)


Intel Clear Video HD Technology, Intel Quick Sync Video, Quad Display Capable

Package Type

Intel Boxed

Service & Support

Limited warranty – 3 years

  • Intel smart cache is shared cache dynamically allocated to each processor core, based on workload. This efficient, dual-core-optimized implementation increases the probability that each core can access data from the fast cache, significantly reducing latency to frequently used data and improving performance.