GizWires logo
ActiveCore 5 (Bartlett Lake)

Intel · Core 5

Intel Core 5 213PTE

8-core efficiency and embedded flexibility on the LGA 1700 platform.

Full SpecificationsPerformance
Digital SignageIndustrial Control SystemsCommercial DesktopsEdge ComputingOffice Productivity

Cores / Threads

8/ 16

Base / Boost

2.1/ 5.2 GHz

PCIe Lanes

16

L3 Cache

24MB

TDP

45W

Socket

LGA 1700

Verdict

7.5/ 10

75

Quick Verdict

A highly efficient 8-core processor tailored for embedded and commercial use cases, offering modern connectivity like PCIe 5.0 and dual DDR4/DDR5 memory support within a strict 45W power envelope.

Best for:Digital SignageIndustrial Control SystemsCommercial DesktopsEdge ComputingOffice Productivity

Overview

Launch

2026

Status

Active

Generation

Core 5 (Bartlett Lake)

Market

Desktop

About this CPU

The Intel Core 5 213PTE is an 8-core, 16-thread desktop processor built on the Bartlett Lake architecture, specifically tailored for embedded systems and commercial deployments. Operating at a highly efficient 45W base TDP, it features 8 Redwood Cove P-Cores capable of boosting up to 5.2 GHz. It uniquely supports both DDR4 and DDR5 memory, providing system integrators with unparalleled flexibility when upgrading legacy LGA 1700 infrastructures. Equipped with 16 lanes of PCIe 5.0, UHD Graphics 730, and enterprise-focused technologies like TSN and ECC memory support, the 213PTE is designed to deliver reliable, long-lifecycle performance in digital signage, industrial control, and edge computing environments where consistent power delivery and thermal stability outweigh the need for extreme gaming performance.

The Core 5 213PTE delivers 8 Redwood Cove P-cores and 16 threads with a 45W base power limit, scaling up to 219W under turbo boost. It supports both DDR4 and DDR5 memory, features 16 lanes of PCIe 5.0, and includes UHD Graphics 730, making it a versatile choice for non-consumer platforms.

Specifications

ArchitectureBartlett Lake (Redwood Cove P-Cores)
Manufacturing Process10 nm (Intel 7)
Cores / Threads8 / 16
Base Clock2.1 GHz
Boost Clock5.2 GHz
L3 Cache24 MB
TDP45 W
SocketLGA 1700
Memory TypeDDR4, DDR5
Memory SpeedDDR4-3200, DDR5-4800
Memory ChannelsDual-Channel (2)
PCIe Version / LanesPCIe 5.0 × 16
Integrated GraphicsYes
Dual-Channel16 PCIe Lanes
Target Audience
GamersStreamersContent CreatorsDevelopersWorkstation UsersOffice UsersStudents

Performance

Productivity
N/A

Eight physical cores provide solid multi-threaded throughput for office applications and light productivity tasks.

Virtualization
N/A

Supports VT-x and VT-d with Thread Director, making it capable of running multiple virtual machines efficiently.

Gaming
N/A

While equipped with UHD Graphics 730 and capable of handling casual or legacy titles, this processor is not targeted at gaming workloads.

Efficiency
N/A

Extremely efficient at base load with a 45W TDP, though it can draw up to 219W during short turbo bursts.

GamingPoor
  • Lacks high-frequency gaming optimization
  • UHD 730 iGPU is not suitable for modern AAA gaming
  • Locked multiplier prevents enthusiast tuning
CreatorGood
Adobe PhotoshopMicrosoft Office SuiteLight Video EditingCAD Drafting
AI / MLLimited
  • No dedicated NPU
  • Relies on standard AVX2 and VNNI instructions for CPU-based AI inference
Industry Impact
Gaming
Minimal
Workstations
Moderate
Content Creation
Low
Virtualization
Moderate

Architecture

10 nm (Intel 7)

Process Node

Bartlett Lake

Codename

8C / 16T

Core Config

24 MB

L3 Cache

45 W

TDP

Architecture Overview

Bartlett Lake represents an evolutionary step for Intel embedded and commercial silicon, utilizing the Redwood Cove P-Core architecture. Unlike consumer chips that mix P-Cores and E-Cores for heterogeneous multitasking, the 213PTE employs a homogeneous 8-core P-Core design. This approach ensures predictable, latency-sensitive performance crucial for industrial automation and dedicated hardware tasks. The architecture retains the LGA 1700 socket but introduces modernized I/O, including 16 direct PCIe 5.0 lanes for high-speed storage or graphics, alongside 4 PCIe 4.0 lanes for peripheral connectivity. By maintaining support for both DDR4 and DDR5 dual-channel memory, Intel has created a transitional bridge, allowing embedded builders to either capitalize on cheaper legacy memory or invest in next-generation bandwidth without changing the CPU platform. The locked multiplier and extended PL2 Tau durations further reflect its focus on sustained, controlled reliability.

CPU Design

Features 8 P-Cores and 16 threads running at a 2.1 GHz base clock, scaling up to 5.2 GHz on single-core turbo. It excludes E-Cores to maintain consistent latency-sensitive performance.

Memory Subsystem

Dual-channel memory controller supports both DDR4-3200 and DDR5-4800, allowing integrators to reuse existing inventory or transition to newer memory standards.

PCIe & I/O

Provides 16 PCIe 5.0 lanes directly from the CPU, alongside 4 secondary PCIe 4.0 lanes, ensuring fast connectivity for modern peripherals.

Overclocking

The multiplier is locked, aligning with the stability requirements of embedded and enterprise environments.

Generation Comparison
  • Transition from Alder Lake embedded chips to the Bartlett Lake silicon
  • Retention of LGA 1700 socket for infrastructure longevity
  • Addition of PCIe 5.0 support over previous embedded generations

Key Highlights

Dual Memory Support
Supports both DDR4-3200 and DDR5-4800, providing flexibility for legacy and new system designs.
PCIe 5.0 Connectivity
Features 16 CPU-direct PCIe 5.0 lanes for modern GPUs and NVMe storage.
Embedded-Ready Power Profile
Operates at a 45W base TDP with a 219W PL2 turbo window, ideal for constrained thermal environments.
UHD Graphics 730
Includes integrated graphics for headless operation, basic display outputs, or hardware decoding without a discrete GPU.
Strengths
  • 45W base TDP for excellent idle and base-load efficiency
  • Support for both DDR4 and DDR5 memory
  • PCIe 5.0 support for modern storage and GPUs
  • Includes UHD Graphics 730 for headless or display-heavy setups
  • Hardware-level security features like TME and TXT
Weaknesses
  • Locked multiplier
  • High PL2 turbo power of 219W requires adequate cooling headroom
  • No E-Cores for background task offloading
  • Limited chipset support focused on enterprise and embedded boards
  • Not optimized for high-refresh-rate gaming

History

Launch Date
2026
Status
Active
Generation
Core 5 (Bartlett Lake)
Market
Desktop
The Story

The Intel Core 5 213PTE represents a strategic shift in how Intel approaches the embedded and commercial desktop market. Rather than simply rebadging older silicon, Intel developed the Bartlett Lake architecture to extend the lifespan of the highly successful LGA 1700 platform. By incorporating modern features like PCIe 5.

0 and retaining flexible DDR4/DDR5 memory support, the 213PTE allows enterprise clients and industrial system integrators to modernize their hardware infrastructure without undergoing a complete platform overhaul.</br>The focus on a 45W base TDP alongside enterprise-grade features like TSN and ECC memory underscores its intended role in kiosks, digital signage, and light edge computing. In these environments, long-term stability, predictable thermal envelopes, and hardware security are far more critical than peak gaming frame rates.

This release solidifies Intel's commitment to providing embedded sectors with distinct, purpose-built silicon.

Improvements over Previous Generation

  • Transition from Alder Lake embedded chips to the Bartlett Lake silicon
  • Retention of LGA 1700 socket for infrastructure longevity
  • Addition of PCIe 5.0 support over previous embedded generations

Alternatives & Competitors

Intel Core i5-14400
Better gaming performance and hybrid architecture if an embedded SKU is not strictly required.
Intel Core 5 210PTE
Lower cost option within the same embedded family if 8 cores are not necessary.
AMD Ryzen 5 8600G
Superior integrated graphics for small form factor builds without a discrete GPU.
Intel Core i3-14100
Budget-friendly alternative for basic office tasks and kiosks.
Intel Core i5-12500
Similar core configuration available on the secondary market for tighter budgets.
Direct Competitors
AMD Ryzen 5 8500GAMD Ryzen 7 8700GIntel Core i5-12400Intel Core i5-13400AMD Ryzen 5 5600G

Should You Buy It?

Recommended for the right buyer

The Intel Core 5 213PTE is best suited for system integrators and enterprise buyers building commercial desktops, interactive kiosks, digital signage arrays, or light industrial control systems. Its unique combination of a 45W base power draw, dual DDR4/DDR5 memory support, and PCIe 5.0 connectivity makes it an ideal drop-in upgrade for existing LGA 1700 embedded systems. The inclusion of TSN and ECC memory support ensures data integrity and precise network timing required in manufacturing and enterprise environments. It provides ample multi-threaded performance for office productivity, lightweight virtualization, and edge computing tasks without the premium cost or power draw of high-end consumer CPUs.

Avoid if…

  • Building a high-end gaming PC
  • Needing maximum single-core performance
  • Requiring an unlocked processor for overclocking

Use Cases

Digital Signage
Excellent
Industrial Control Systems
Excellent
Office Productivity
Excellent
Light Content Creation
Good
Software Development
Good

Interesting Facts

The E in 213PTE designates it as an embedded or commercial-specific SKU.

Despite a 45W base TDP, its PL2 limit is nearly five times higher at 219W, allowing aggressive short-term boosts.

It utilizes the FC-LGA16A package, which is technically a slightly modified LGA 1700 socket layout.

Intel retained the Redwood Cove core design for Bartlett Lake embedded parts to ensure software validation continuity.

Supports TSN (Time-Sensitive Networking), a feature highly prized in industrial automation and audio/video bridging.

The PL2 Tau Duration can be configured anywhere from 28 seconds up to 448 seconds by the system integrator.

It features a fully homogeneous P-Core layout, completely omitting the E-Cores found in its consumer counterparts.

The CPU natively supports ECC memory, a rare feature for desktop-class processors.

Integrated graphics run at a dynamic frequency ranging from 300 MHz to 1650 MHz.

It is compatible with older 600-series embedded chipsets like W680 and H610E out of the box.

People Also Ask

What does the E stand for in Intel Core 5 213PTE?

The E typically denotes an embedded or commercial SKU, designed for long lifecycle availability, industrial stability, and features like TSN and ECC memory support.

Can the Core 5 213PTE use both DDR4 and DDR5 at the same time?

No, you cannot mix DDR4 and DDR5 memory modules. The motherboard chipset and PCB determine which memory type is supported, and the CPU is compatible with either standard separately.

Does the Core 5 213PTE have E-Cores?

No, the 213PTE features 8 P-Cores and 16 threads, omitting E-Cores to maintain predictable performance for embedded workloads.

What is the difference between PL1 and PL2 on the 213PTE?

PL1 is the sustained power limit of 45W, while PL2 is the short-term turbo power limit of 219W, allowing the CPU to boost higher for limited durations before settling back to PL1.

Is the Intel Core 5 213PTE good for gaming?

While the 8 cores and 5.2 GHz boost provide adequate CPU power, the lack of an unlocked multiplier and embedded focus make mainstream K-series processors a better choice for gaming.

Does the 213PTE support ECC memory?

Yes, the processor natively supports ECC (Error-Correcting Code) memory, which is crucial for data integrity in server and embedded environments.

What socket does the Core 5 213PTE use?

It uses the Intel LGA 1700 socket, specifically the FC-LGA16A package, compatible with 600-series embedded chipsets like W680 and H610E.

Can I overclock the Core 5 213PTE?

No, the multiplier is locked. Overclocking is generally not supported or desired on embedded platforms to ensure system stability.

What integrated graphics does the 213PTE have?

It features the Intel UHD Graphics 730, running at a dynamic frequency of 300 MHz to 1650 MHz.

What is TSN on the Core 5 213PTE?

TSN stands for Time-Sensitive Networking, a set of IEEE 802.1 standards that provide deterministic networking, essential for industrial automation and real-time control systems.

Frequently Asked Questions

What is the launch price of the Intel Core 5 213PTE?

The official launch price is $221.

How much L3 cache does the 213PTE have?

It features 24 MB of shared L3 cache.

What is the base clock speed of the 213PTE?

The base clock speed is 2.1 GHz.

Does the 213PTE support PCIe 5.0?

Yes, it provides 16 lanes of PCIe 5.0 directly from the CPU.

Which chipsets are compatible with the Core 5 213PTE?

It is compatible with W680, R680E, Q670E, Q670, H610E, and H610 chipsets.

What is the maximum turbo boost clock?

The maximum turbo boost clock is up to 5.2 GHz.

Does it support Intel Thread Director?

Yes, Intel Thread Director is supported to manage thread scheduling efficiently across the 8 cores.

What is the TDP of this processor?

The base TDP (PL1) is 45 W.

Is this processor currently in production?

Yes, its production status is listed as Active.

Does it support virtualization?

Yes, it supports VT-x and VT-d with APICv for enhanced virtual machine performance.