Celeron
This article needs to be updated.(September 2023) |
Microarchitecture | |
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Instruction set | IA-32, x86-64 |
Instructions | x86 |
Physical specifications | |
Cores |
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Sockets | |
Products, models, variants | |
Core names |
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Variant | |
History | |
Predecessors | i486, Pentium II |
Successor | Intel Processor |
Celeron is a discontinued series of low-end IA-32 and x86-64 computer microprocessor models targeted at low-cost personal computers, manufactured by Intel. The first Celeron-branded CPU was introduced on April 15, 1998, and was based on the Pentium II.
Celeron-branded processors released from 2009 to 2023 are compatible with IA-32 software. They typically offer less performance per clock speed compared to flagship Intel CPU lines, such as the Pentium or Core brands. They often have less cache or intentionally disabled advanced features, with variable impact on performance. While some Celeron designs have achieved strong performance for their segment, the majority of the Celeron line has exhibited noticeably degraded performance.[2] This has been the primary justification for the higher cost of other Intel CPU brands versus the Celeron range.[citation needed]
In September 2022, Intel announced that the Celeron brand, along with Pentium, were to be replaced with the new "Intel Processor" branding for low-end processors in laptops from 2023 onwards.[1] This applied to desktops using Celeron processors as well, and was discontinued around the same time laptops stopped using Celeron processors in favor of "Intel Processor" processors in 2023.
Background
As a product concept, the Celeron was introduced in response to Intel's loss of the low-end market, in particular to the
The Celeron also effectively killed off the nine-year-old
Intel hired marketing firm
Desktop | Laptop | Embedded | |||||||
---|---|---|---|---|---|---|---|---|---|
Based On | Code-named | Core | Date released | Code-named | Core | Date released | Code-named | Core | Date released |
P6 | Covington Mendocino Coppermine-128 Tualatin-256 |
(250 nm) (250 nm) (180 nm) (130 nm) |
1998 1998-2000 2000-2001 2002 |
Mendocino Coppermine-128 Coppermine T |
(250 nm) (180 nm) (180 nm) |
1999 2000-2001 2001 |
|||
NetBurst | Willamette-128 Northwood-128 |
(180 nm) (130 nm) |
2002 2002-2003 |
Northwood-256 |
(130 nm) |
2002-2003 | |||
Pentium M (Celeron M) | Banias-512 Dothan-512 Dothan-1024 Yonah-512 Yonah-1024 |
(130 nm)
(90 nm) (90 nm) (65 nm) |
2004
2004-2007 2004-2005 2007 2006 2006-2007 | ||||||
NetBurst (Celeron D) | Prescott-256 Cedar Mill-512 |
(90 nm) (65 nm) |
2004-2005 2006-2007 |
||||||
Core (Single) | Conroe-L
Conroe-CL |
(65 nm)
(65 nm) |
2007-2008
??? | ||||||
Core (Dual) | Allendale Wolfdale-3M |
(65 nm) (45 nm) |
2008-2009
2009-2010 | ||||||
Core (Celeron M/Celeron) | Merom, Merom-L
Merom-2M Merom-L (Ultra-Low-Voltage) |
(65 nm) (65 nm) (65 nm) |
2007-2008
2008 2007, 2009 | ||||||
Core (Celeron Dual) | Merom-2M
Penryn-3M |
(65 nm)
(45 nm) |
2008
2009-2010 | ||||||
Nehalem/Westmere | Clarkdale | (32 nm) | 2010 | Arrandale | (32 nm) | 2010-2011 | |||
Jasper Forest | Single (45 nm) | ||||||||
Silvermont
Airmont Goldmont Goldmont Plus Tremont |
Bay Trail-
Braswell Apollo Lake Gemini Lake Jasper Lake |
dual & quad (22nm)
dual & quad (14nm) up to quad (14nm) up to quad (14nm) up to quad (10nm) |
Bay Trail-M
Braswell Apollo Lake Gemini Lake Jasper Lake |
dual & quad (22nm)
dual & quad (14nm) up to quad (14nm) up to quad (14nm) up to quad (10nm) |
October 2013
March 2015 April 2016 December 2017 January 2021 |
Bay Trail-M
Braswell Apollo Lake Gemini Lake Jasper Lake |
dual & quad (22nm)
dual & quad (14nm) up to quad (14nm) up to dual (14nm) up to dual (10nm) |
October 2013
March 2015 April 2016 December 2017 January 2021 | |
List of Intel Celeron processors |
Desktop Celerons
P6-based Celerons
Covington
Launched in April 1998, the first Covington Celeron was essentially a 266 MHz Pentium II manufactured without any secondary cache at all.[5] Covington also shared the 80523 product code of Deschutes. Although clocked at 266 or 300 MHz (frequencies 33 or 66 MHz higher than the desktop version of the Pentium w/MMX), the cacheless Celerons had trouble outcompeting the parts they were designed to replace.[3] Substantial numbers were sold on first release, largely on the strength of the Intel name, but the Celeron quickly achieved a poor reputation both in the trade press and among computer professionals.[6] The initial market interest faded rapidly in the face of its poor performance, and with sales at a very low level, Intel felt obliged to develop a substantially faster replacement as soon as possible. Nevertheless, the first Celerons were quite popular among some overclockers, for their flexible overclockability and reasonable price.[3] Covington was only manufactured in Slot 1 SEPP format.
Mendocino
The Mendocino Celeron, launched August 24, 1998, was the first retail CPU to use on-die
The new Mendocino-core Celeron was a good performer from the outset. Indeed, most industry analysts regarded the first Mendocino-based Celerons as too successful—performance was sufficiently high to not only compete strongly with rival parts, but also to attract buyers away from Intel's high-profit flagship, the Pentium II. Overclockers soon discovered that, given a high-end motherboard, many Celeron 300A CPUs could run reliably at 450 MHz. This was achieved by simply increasing the front-side bus (FSB) clock rate from the stock 66 MHz to the 100 MHz clock of the Pentium II, helped by several facts: the 440BX chipset with nominal support for 100 MHz and correspondent memory had already been on the market, and the internal L2 cache was more tolerant to overclocking than external cache chips, which already had to run at half-CPU speed by design. At this frequency, the budget Mendocino Celeron rivaled the fastest x86 processors available.[7] Some motherboards were designed to prevent this modification, by restricting the Celeron's front side bus to 66 MHz. However, overclockers soon found that putting tape over pin B21 of the Celeron's interface slot circumvented this, allowing a 100 MHz bus.[8]
At the time on-die cache was difficult to manufacture; especially
Over time, newer Mendocino processors were released at 333, 366, 400, 433, 466, 500, and 533 MHz. The Mendocino Celeron CPU came only designed for a 66 MHz front-side bus, but this would not be a serious performance bottleneck until clock rates reached higher levels.
The Mendocino Celerons also introduced new packaging. When the Mendocinos debuted they came in both a Slot 1 SEPP and Socket 370 PPGA package. The Slot 1 form had been designed to accommodate the off-chip cache of the Pentium II and had mounting problems with motherboards. Because all Celerons are a single-chip design, however, there was no reason to retain the slot packaging for L2 cache storage, and Intel discontinued the Slot 1 variant; beginning with the 466 MHz part, only the PPGA Socket 370 form was offered. (Third-party manufacturers made motherboard slot-to-socket adapters (nicknamed Slotkets) available for a few dollars, which allowed, for example, a Celeron 500 to be fitted to a Slot 1 motherboard.) One interesting note about the PPGA Socket 370 Mendocinos is they supported symmetric multiprocessing (SMP), and there was at least one motherboard released (the ABIT BP6) which took advantage of this fact.
The Mendocino also came in a mobile variant, with clock rates of 266, 300, 333, 366, 400, 433 and 466 MHz.
In Intel's "Family/Model/Stepping" scheme, Mendocino CPUs are family 6, model 6 and their Intel product code is 80524. These identifiers are shared with the related Dixon Mobile Pentium II variant.
Coppermine-128
The next generation Celeron was the '
All Coppermine-128s were produced in the same
In Intel's "Family/Model/Stepping" scheme, Coppermine Celerons and Pentium IIIs are family 6, model 8 and their Intel product code is 80526.
Tualatin-256
These Celeron processors, released initially at 1.2 GHz on October 2, 2001,
The most significant differences compared to the Pentium III Tualatin are a lower 100 MHz bus and fixed 256 KB of L2 cache (whereas the Pentium III was offered with either 256 KB or 512 KB L2 cache); cache associativity stayed at 8-way,[18] although the newly introduced data prefetching appears to have been disabled.[19] Furthermore, the Tualatin-256's L2 cache has a higher latency which boosted manufacturing yields for this budget CPU.[citation needed] On the other hand, this improved stability when overclocking and most of them had no problem working at 133 MHz FSB for a substantial performance increase.
Despite offering much improved performance over the Coppermine Celeron it superseded, the Tualatin Celeron still suffered stiff competition from AMD's Duron budget processor.[20] Intel later responded by releasing the NetBurst Willamette Celeron, and for some time Tualatin Celerons were manufactured and sold in parallel with the Pentium 4-based Celerons that replaced them.
In Intel's "Family/Model/Stepping" scheme, Tualatin Celerons and Pentium IIIs are family 6, model 11 and their Intel product code is 80530.
NetBurst-based Celerons
Willamette-128
These Celerons were for socket 478 and were based on the
In Intel's "Family/Model/Stepping" scheme, Willamette Celerons and Pentium 4s are family 15, model 1, and their Intel product code is 80531.
Northwood-128
These socket 478 Celerons are based on the Northwood Pentium 4 core, and also have 128 KB of L2 cache. The only difference between the Northwood-128-based and the Willamette-128-based Celeron is the fact that it was built on the new 130 nm process which shrank the die size, increased the transistor count, and lowered the core voltage from 1.7 V on the Willamette-128 to 1.52 V for the Northwood-128. Despite these differences, they are functionally the same as the Willamette-128 Celeron, and perform largely the same clock-for-clock. The Northwood-128 family of processors were initially released as a 2 GHz core (a 1.9 GHz model was announced earlier, but never launched[24]) on September 18, 2002.[25] Since that time Intel has released a total of 10 different clock speeds ranging from 1.8 GHz to 2.8 GHz, before being surpassed by the Celeron D. Although the Northwood-based Celerons suffer considerably from their small L2 cache, some clock rates have been favored in the enthusiast market because, like the old 300A, they can run well above their specified clock rate.[2]
In Intel's "Family/Model/Stepping" scheme, Northwood Celerons and Pentium 4s are family 15, model 2, and their Intel product code is 80532.
Prescott-256
Prescott-256 Celeron D processors, initially launched June 25, 2004,[26] featuring double the L1 cache (16 KB) and L2 cache (256 KB) as compared to the previous Willamette and Northwood desktop Celerons, by virtue of being based on the Prescott Pentium 4 core.[27]
It also features a 533 MT/s bus and SSE3, and a 3xx model number (compared to 5xx for Pentium 4s and 7xx for Pentium Ms). The Prescott-256 Celeron D was manufactured for Socket 478 and LGA 775, with 3x0 and 3x5 designations from 310 through to 355 at clock speeds of 2.13 GHz to 3.33 GHz.
The Intel Celeron D processor works with the Intel 845 and 865 chipset families. The D suffix actually has no official designation and does not indicate that these models are dual-core. It is used simply to distinguish this line of Celeron from the previous, lower performing Northwood and Willamette series, and also from the mobile series, the Celeron M (which also uses 3xx model numbers).[28] Unlike the Pentium D, the Celeron D is not a dual core processor.
The Celeron D was a major performance improvement over previous NetBurst-based Celerons. A test using a variety of applications, run by Derek Wilson at Anandtech.com, showed that the new Celeron D architecture alone offered up performance improvements on average of >10% over a Northwood Celeron when both CPUs were run at the same bus and clock rate.[29] This CPU also had the addition of SSE3 instructions and the higher FSB which only contributed to this already impressive gain.
Despite its many improvements, the Prescott core of the Celeron D had at least one major drawback – heat. Unlike the fairly cool-running Northwood Celeron, the Prescott-256 had a class-rated TDP of 73 W, which prompted Intel to include a more intricate copper core/aluminum finned cooler to help handle the additional heat.[30]
In mid-2005, Intel refreshed the Celeron D with
In Intel's "Family/Model/Stepping" scheme, Prescott Celeron Ds and Pentium 4s are family 15, model 3 (up to stepping E0) or 4 (stepping E0 onwards), and their Intel product code is 80546 or 80547, depending on socket type.
Cedar Mill-512
Based on the Cedar Mill Pentium 4 core, this version of the Celeron D was launched May 28, 2006, and continued the 3xx naming scheme with the Celeron D 347 (3.06 GHz), 352 (3.2 GHz), 356 (3.33 GHz), 360 (3.46 GHz), and 365 (3.6 GHz). The Cedar Mill Celeron D is largely the same as the Prescott-256, except with double the L2 cache (512 KB) and based on a 65 nm manufacturing process. The Cedar Mill-512 Celeron D is LGA 775 exclusive. The main benefits of the Cedar Mill Celerons over the Prescott Celerons are the slightly increased performance due to the larger L2 cache, higher clock rates, and less heat dissipation, with several models having a TDP lowered to 65 W from Prescott's lowest offering of 73 W.[31]
In Intel's "Family/Model/Stepping" scheme, Cedar Mill Celeron Ds and Pentium 4s are family 15, model 6, and their Intel product code is 80552.
Core-based Celerons
Conroe-L
The Conroe-L Celeron is a single-core processor built on the
On October 21, 2007, Intel presented a new processor for its Intel Essential Series. The full name of the processor is Celeron 220 and is soldered on the D201GLY2 motherboard. With 1.2 GHz and a 512 KB L2 cache it has a TDP of 19 W and can be cooled passively. The Celeron 220 is the successor of the Celeron 215 which is based on a Yonah core and used on the D201GLY motherboard. This processor is exclusively used on the mini-ITX boards targeted to the sub-value market segment.
Allendale
Intel launched the dual core Celeron E1xxx processor line on January 20, 2008, based on the Allendale core. The CPU has 800 MT/s FSB, 65 W TDP and uses 512 KB of the chip's 2 MB L2 cache, significantly limiting performance for uses such as gaming. New features to the Celeron family included full enhanced halt state and enhanced Intel SpeedStep technology. Clock rates range from 1.6 GHz to 2.4 GHz. It is compatible with other Allendale-based CPUs such as the Core 2 Duo E4xxx and Pentium Dual-Core E2xxx.[35]
Wolfdale-3M
The Celeron E3000 series, starting with E3200 and E3300, was released in August 2009, featuring the Wolfdale-3M core used in
Nehalem-based Celerons
Clarkdale
With the introduction of the Desktop Core i3 and Core i5 processor code named Clarkdale in January 2010, Intel also added a new Celeron line, starting with the Celeron G1101. This is the first Celeron to come with on-chip
Jasper Forest
The Celeron P1053 is an embedded processor for
Sandy Bridge-based desktop Celerons
The Sandy Bridge-based Celeron processors were released in 2011. They are LGA 1155 processors (available in single- and dual-core versions) with integrated Intel HD Graphics GPU and containing up to 2 MB of L3 cache. Turbo-Boost, AVX and AES-NI have been disabled. Hyper-Threading is available on some single-core models, namely G460, G465 and G470.
Ivy Bridge-based desktop Celerons
All Celerons of this generation belong in the G16xx series. They give some boost in performance over Sandy Bridge-based Celerons due to a 22 nm die shrink, as well as some other minor improvements.
Haswell-based desktop Celerons
Skylake-based desktop Celerons
All Celerons of this generation added
Kaby Lake-based desktop Celerons
Coffee Lake-based desktop Celerons
Comet Lake-based desktop Celerons
Alder Lake-based desktop Celerons
Mobile Celerons
P6-based mobile Celerons
Mendocino (mobile)
Similar to the Mendocino (Celeron-A): 250 nm, 32 KB L1 cache and 128 KB L2 cache, but uses a lower voltage (1.5–1.9 V) and two power-saving modes: Quick Start, and Deep Sleep. Packaged in the small, 615-pin
Tualatin-256 (mobile)
These were the first Mobile Celerons based on the Tualatin core. They differed from their desktop counterparts in that the Mobile series were offered in both 100 MHz and 133 MHz FSB. Like the desktop Tualatins, these chips had 256 KB of L2 cache.
NetBurst-based mobile Celerons
Northwood-256
These are the Mobile Celeron range used in laptops. Also based on the Northwood core, they feature a 256 KB L2 cache. These Celeron processors were a good deal higher performing than the desktop counterparts because of their larger L2 cache sizes.[37] They were eventually replaced by the Celeron M brand which is built around the Pentium M processor design.
Pentium M-based mobile Celerons
Banias-512
This Celeron (sold under the Celeron M brand) is based on the Banias Pentium M, and differs from its parent in that it has half the L2 cache, and does not support the clock-varying SpeedStep technology. It performs reasonably well compared to the Pentium M, but battery life is noticeably shorter on a Celeron M–based notebook than it is on a comparable Pentium M notebook.
A system based on the Celeron M processor may not use the Centrino brand name, regardless of what chipset and Wi-Fi components are used.
In Intel's "Family/Model/Stepping" scheme, Banias Celeron Ms and Pentium Ms are family 6, model 9 and their Intel product code is 80535.
Shelton
The Shelton core is a Banias core without any L2 cache and SpeedStep. It is used in Intel's small form factor D845GVSH motherboard, intended for Asian and South American markets. The processor identifies itself as a "Intel Celeron 1.0B
The Shelton'08 is a basic platform for a low cost notebook released by Intel at January 2008. The platform uses Intel's single-core Diamondville CPU with a clock frequency of 1.6 GHz and a 533 MT/s FSB and power consumption of 3.5 W. The platform's total power consumption is around 8 W, translating to battery usage time of between 3–4 hours. The platform consists of a 945GSE chipset, which includes built-in DirectX 9 graphics and supports single channel DDR2 memory. An 802.11g Wi-Fi module, USB/PATA port SSD (solid state drive), and a 7- or 8-inch panel will typically round out the platform.
Dothan-1024
A 90 nm Celeron M with half of the L2 cache of the 90 nm Dothan Pentium Ms (twice the L2 cache of the 130 nm Celeron Ms, though), and, like its predecessor, lacking SpeedStep. The first Celeron Ms that supports the
In Intel's "Family/Model/Stepping" scheme, Dothan Celeron Ms and Pentium Ms are family 6, model 13 and their Intel product code is 80536.
Yonah
The Celeron M 400-series is a 65 nm Celeron M based on the single-core Yonah chip, like the Core Solo. Like its predecessors in the Celeron M series, this Celeron M has half of the L2 cache (1 MB) of Core Solo and lacks SpeedStep. This core also brings new features to Celeron M including a higher front side bus (533 MT/s), SSE3 instructions. September 2006 and January 4, 2008, mark a discontinuation of many Celeron M branded CPUs.[38]
Core-based mobile Celerons
Merom-L
The Celeron M 523 (933 MHz ULV), M 520 (1.6 GHz), M 530 (1.73 GHz), 530 (1.73 GHz), 540 (1.86 GHz), 550 (2.0 GHz), 560 (2.13 GHz), 570 (2.26 GHz)
Merom-2M
The Celeron 573 (1 GHz, ULV), 575 (2 GHz) and 585 (2.16 GHz) are based on the Merom-2M core with only one core and 1 MB L2 cache enabled. They are similar to the Merom and Merom-L based Celerons but have a faster 667 MT/s FSB.
The Celeron T1xxx processors are also based on the Merom-2M chips but have both cores enabled. The earlier T1400 (1.73 GHz) and T1500 (1.86 GHz) versions have a 533 MT/s FSB and 512 B L2 cache, while the more recent T1600 (1.66 GHz) and T1700 (1.83 GHz) versions have 667 MT/s and 1 MB L2 cache enabled but come with a lower clock frequency.
Penryn-3M
At the same time as the dual-core Merom-2M, Intel introduced the first 45 nm Celeron processor based on the Penryn-3M core with 800 MT/s FSB, 1 MB L2 cache and one core enabled. This includes the Celeron M 7xx Consumer Ultra-Low Voltage (CULV) series starting at 1.2 GHz and the later Celeron 900 (2.2 GHz).
The initial 45 nm dual-core Celeron processor was released in June 2009 and is also based on Penryn-3M. The Celeron T3000 (1.8 GHz) and T3100 (1.9 GHz) again come with 1 MB of L2 cache enabled and an 800 MT/s FSB. In September 2009, Intel also started the dual-core CULV Celeron SU2000 series, again with 1 MB L2 cache. Despite the similar name, they are very different from Pentium SU2000 (with 2 MB L2 cache and one active core) and Pentium T3000 (based on the 65 nm Merom processor).
Nehalem-based mobile Celerons
Arrandale
The Arrandale-based Celeron P4xxx and U3xxx lines are low-end versions of the Pentium P6xxx and U5xxx lines, originally released as the mobile dual-core lines of Core i3/i5/i7. Like the Clarkdale-based Celeron G1xxx, they use 2 MB of L3 cache, which is the amount that the earlier "Penryn" based CPUs used in the Pentium brand as their L2 cache. Like all Arrandale processors, the Celeron P4xxx and U3xxx use an integrated graphics core.
Sandy Bridge-based mobile Celerons
The Celeron B8xx processors released in 2011 follow the Arrandale line. They are Dual-Core processors with integrated graphics and use the same chips as the Pentium B9xx and Core i3/i5/i7-2xxx mobile processors, but with Turbo-Boost, Hyper-Threading, VT-d, TXT and AES-NI disabled and the L3 cache reduced to 2MB.
Dual-processor support
As a budget processor, the Celeron does not support a dual-processor configuration using multiple CPU sockets, however it has been discovered that multiprocessing could be enabled on Slot 1 Celeron processors by connecting a pin on the CPU core to a contact on the processor card's connector.[40] In addition, Mendocino Socket 370 processors can use multiprocessing when used on specific dual Slot 1 motherboards by using a slot adapter.[citation needed] The unofficial SMP support was removed in the Coppermine Celerons, and dual-socket support is now limited to higher-end Xeon server-class processors. Conroe/Allendale based Celeron processors and later support multiprocessing using
The ABIT BP6 motherboard also allows two Mendocino Socket 370 Celeron processors to operate in a symmetric multiprocessing (SMP) configuration without any modification to the CPUs or the motherboard.
See also
References
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External links
- Intel Celeron M Processor – Product overview
- Intel Celeron M Banias, Dothan, and Yonah specifications
- Intel Pentium II and Pentium III based Celerons at cpu-collection.de
- Intel CPU Transition Roadmap 2008–2013
- Intel Desktop CPU Roadmap 2004–2011
- Intel Mobile CPU Roadmap 2004–2011