Le blog de l'entreprise Recycle Intel Celeron Processor:3000 Series,2000 Series,1000 Series

Recycle Intel Celeron Processor:3000 Series,2000 Series,1000 Series

Shenzhen Mingjiada Electronics Co., Ltd. is a financially robust, globally recognised electronic component inventory recycling company with an excellent reputation. With many years of experience in the electronic component recycling sector, operating nationwide and globally. We possess a mature recycling system, a professional appraisal team and ample financial reserves, specialising in the recycling of factory stock from legitimate channels, distributor surplus stock, personal surplus items and original processors from dismantled equipment. We have consistently earned widespread recognition and trust from industry clients through our service advantages of price transparency, secure transactions and rapid payment.

Core Recycling Advantages

1. High-value recycling with transparent pricing: Backed by our own capital reserves and free from middlemen mark-ups, we provide real-time quotations based on market conditions, chip models, condition and quantity. There are no hidden fees, and we strictly avoid arbitrary price reductions.

2. Comprehensive Coverage and Strong Capacity: We accept all models and quantities, handling everything from large-scale factory stock clearance and bulk chip dismantling from corporate equipment to small quantities of idle chips from individuals.

3. Professional Appraisal, Accurate Valuation: Our team of experienced chip appraisers is well-versed in chip specifications, market value and authenticity verification methods. We can swiftly distinguish between brand-new, dismantled, refurbished and faulty chips, ensuring accurate valuation and fair, impartial transactions.

4. Flexible Transactions and Instant Payment: We support online quotation via images and on-site inspection and collection. We accept orders nationwide, offering rapid local collection or postal return options for out-of-town customers. Payment methods include cash, bank transfers, WeChat Pay and Alipay. Payment is made immediately upon successful inspection, with no delays or outstanding balances.

Simple Recycling Process

1. Enquiry and Quotation: Customers provide the specific model, quantity, condition and stock status of the chips for a free online enquiry; we provide an accurate quotation in real time;

2. Confirmation of Cooperation: Once the customer accepts the quotation, we negotiate the transaction method (on-site collection or postal return);

3. Inspection and Settlement: On-site inspection or online verification of received goods; full payment is issued immediately upon confirmation that the products are correct;

4. Transaction Completion: The entire process is transparent with no hidden fees or subsequent deductions; the transaction is simple and efficient, providing a one-stop solution for clearing inventory and realising its value.

I. Celeron 1000 Series: The First-Generation Benchmark for Low-Power Entry-Level Processors

The Celeron 1000 series is Intel’s first-generation lightweight entry-level processor designed for mobile and embedded applications, prioritising ultra-low power consumption. It is primarily designed for basic multimedia, light office tasks, industrial control terminals and portable low-end devices. Mainly launched between 2013 and 2014, it relies on a mature, legacy architecture, prioritising stability, durability and low cost, making it the mainstream computing solution for early entry-level ultrabooks and embedded devices.

Key Hardware Specifications and Architectural Features

The series utilises Intel’s Bay Trail architecture with a 22nm process. The entire range primarily features dual-core, dual-thread configurations without Hyper-Threading technology, eschewing redundant performance features to focus on power consumption control. Base clock speeds range from 1.1GHz to 2.0GHz, with a standard 2MB Smart Cache. The specifications are simple and uniform, reducing device adaptation and R&D costs.

Power consumption is a key advantage of the 1000 series, with standard mobile TDPs ranging from just 6W to 11.5W. This ultra-low power consumption eliminates the need for complex cooling modules, making it suitable for fanless, silent devices. Representative models include the Celeron 1017U, 1037U and 1007U. Among these, the Celeron 1037U is the mainstream model, featuring a clock speed of 1.8GHz and a TDP of 17W. It balances basic performance with thermal compatibility and was widely used in early home-use ultraportable laptops. The embedded version, the 1000E, prioritises industrial-grade stability and is suitable for industrial control motherboards, self-service terminals and similar devices.

Performance and Suitable Applications

In terms of performance, the 1000 series is only capable of handling purely light, basic computing tasks. It can run the basic Windows system, web browsing, online video playback, simple Office tasks and standalone utility software smoothly, but cannot handle parallel multitasking, HD video editing or the operation of large-scale software. The integrated graphics are entry-level Intel HD Graphics, supporting only basic 1080p audio and video decoding, with no gaming performance.

Suitable applications are concentrated in low-end entry-level laptops, industrial control all-in-one PCs, digital signage displays, smart self-service devices, and home entertainment systems – devices that place no demands on performance but prioritise stability and low power consumption. It was also the standard core processor for entry-level computers priced at around 100 yuan in earlier years.

II. Celeron 2000 Series: Architectural Evolution, Modest Performance Upgrade

The Celeron 2000 series was released around 2014 as an iterative upgrade to the 1000 series, featuring core architecture optimisations, increased clock speeds, and more refined power consumption tiers. The architecture was upgraded to Haswell (the same architecture as the 4th-generation Core processors), The 22nm process was retained, allowing for a slight improvement in single-core and multitasking capabilities whilst maintaining the entry-level low-power advantages. This addressed the performance shortcomings of the 1000 series, positioning it for entry-level office and embedded applications.

Key Hardware Specifications and Architectural Features

The entire range retains a dual-core, dual-thread design without Hyper-Threading, featuring 2MB of Intel Smart Cache, with cache read/write efficiency slightly optimised compared to the 1000 series. The clock speed range has been increased to 1.5GHz–2.2GHz, with core operating frequencies rising across the board, resulting in a noticeable improvement in baseline processing speed. The standout feature of this series is its refined power consumption tiering, distinguishing between mobile, standard and embedded versions to accommodate the thermal requirements of different devices.

Among the mainstream models, the Celeron 2000E is the flagship embedded model, with a clock speed of 2.2GHz and a TDP of 37W, offering more robust performance and suitability for desktop industrial control equipment and embedded systems; The Celeron 2002E focuses on low power consumption, with a clock speed of 1.5GHz and a TDP of just 25W, balancing performance and energy efficiency; the mobile version, the 2970M, operates at 2.2GHz with a TDP of 37W, making it suitable for early mainstream entry-level laptops and offering greater thermal compatibility. Compared to the 1000 series, the 2000 series has optimised bus transfer speeds, achieving a bus rate of 5GT/s, which significantly improves data throughput efficiency.

Performance and Application Scenarios

Performance has improved by approximately 20–30% compared to the 1000 series, with notable optimisations in single-core performance. It can handle multiple web pages simultaneously, batch document processing, smooth decoding of 720p/1080p HD video, and light online office tasks with ease. Integrated graphics performance has seen a modest upgrade, supporting basic image rendering and capable of running simple web-based games and lightweight design tools.

With a broader range of suitable applications, in addition to traditional industrial control equipment and multimedia systems, it meets the needs of everyday home use, light office work, basic online learning devices for students, shop POS terminals, and surveillance systems. It serves as a transitional product bridging the gap between entry-level and mainstream office use, offering outstanding value for money.

III. Celeron 3000 Series: Process Optimisation, Peak Low-Power Performance

Released between 2015 and 2019, the Celeron 3000 series is the most mature, versatile and widely adopted version of the three generations. With an architectural upgrade to Skylake/Kaby Lake and optimised manufacturing details, it offers more precise power management and significantly outperforms the previous two generations, whilst retaining the Celeron series’ core advantages of low power consumption and low cost, establishing itself as the benchmark processor for modern entry-level devices.

Key Hardware Specifications and Architectural Features

The entire range comes standard with dual-core, dual-thread processing and 2MB of high-speed intelligent cache. The architecture is derived from Intel’s 6th and 7th generation Core processors, with a fully optimised instruction set that delivers significantly improved computational efficiency. Clock speeds range from 1.5GHz to 2.2GHz, with multiple models available to precisely suit both ultra-low-power portable devices and standard office equipment. The power consumption tiers are more refined, covering the ultra-low-power 6W Y-series and the mainstream 15W U-series, ensuring comprehensive coverage of all usage scenarios.

Key representative models boast outstanding specifications: the Celeron 3965Y is an ultra-low-power model with a clock speed of 1.5GHz and a TDP of just 6W; it supports fanless, silent designs and is suitable for ultra-slim laptops and mini PCs; The mainstream 3965U operates at 2.2GHz with a TDP of 15W, delivering balanced performance and serving as the primary model for entry-level laptops; the 3867U runs at 1.8GHz with stable power consumption, making it suitable for embedded devices requiring long-term standby. Compared to the previous two generations, the 3000 series has optimised memory support and power management mechanisms, resulting in lower standby power consumption and significantly improved battery life.

Performance and Application Scenarios

Overall performance has improved by approximately 40% compared to the 2000 series and by over 70% compared to the 1000 series. Multitasking capabilities have been significantly enhanced, allowing for smooth operation of Windows 10 and Windows 11 systems. It handles all daily office scenarios, online lectures, HD video playback, light photo editing and small office software running in the background with stability, fully meeting the essential daily home and office needs of ordinary users. Integrated graphics performance has been upgraded once again, supporting basic 4K audio and video decoding, delivering a multimedia experience far superior to that of the previous two generations.

Comprehensive application scenarios include: ultra-slim, silent and portable laptops; mini home PCs; entry-level commercial office computers; industrial embedded terminals; smart devices; POS systems; and surveillance hosts. Thanks to its balanced performance, power consumption and cost-effectiveness, it remains widely used in low-end commercial equipment and smart terminals to this day.