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Pentium Dual-Core

The Pentium Dual-Core was a branding designation used by Intel Corporation for a family of entry-level dual-core x86 microprocessors targeted at the consumer desktop and mobile markets, with most later models supporting the x86-64 instruction set. Introduced in the first quarter of 2007, these processors were designed as affordable alternatives to the higher-end Core 2 Duo lineup, featuring two processing cores integrated on a single die with support for SSE3 instruction set extensions, and enhanced Intel SpeedStep technology for power management.^[1] They were manufactured using Intel's 65 nm process initially, with clock speeds ranging from 1.6 GHz to over 3 GHz in later iterations, and typically included 1 MB of shared L2 cache along with a 800 MHz front-side bus. Built primarily on the Core microarchitecture—derived from the Allendale core for desktop variants and Yonah (32-bit for early mobile) or Merom for mobile ones—the Pentium Dual-Core processors offered significant performance improvements over single-core Pentium 4 models while maintaining low power consumption, with thermal design power (TDP) ratings of 65 W for desktops and around 35 W for mobiles.^[1] Key models included the desktop E2140 (launched May 2007 at 1.6 GHz) as the inaugural desktop entry, followed by the E2160 and higher-speed E2000 and E5000 series, as well as mobile counterparts like the T2060 and T2000 series.^[2] Early models lacked advanced features such as Intel Virtualization Technology and had smaller caches compared to premium lines, positioning them firmly in the value segment between Celeron single-core processors and mainstream Core 2 Duo offerings. Over its lifespan, the Pentium Dual-Core family evolved to incorporate newer architectures, including Wolfdale (45 nm) in 2008, Nehalem in 2010, and Sandy Bridge in 2011, with later models like the E5800 and G6950 achieving clock speeds up to 3.2 GHz and introducing shared L3 cache options.^[1] Production continued until around 2011, after which Intel phased out the "Dual-Core" suffix in favor of simplified Pentium branding, reflecting the ubiquity of multi-core designs.^[1] Notable for enabling budget multi-tasking in everyday computing during the mid-2000s transition to multi-core dominance, these processors powered millions of systems and underscored Intel's strategy to democratize dual-core technology.

Overview

Introduction

The Pentium Dual-Core was Intel's mainstream brand for dual-core x86 microprocessors, introduced in early 2007 to offer affordable multi-core computing for consumer desktops and laptops.^[1] The brand encompassed processors based on derivatives of Intel's Core microarchitecture, emphasizing balanced performance for everyday tasks without the advanced features of higher-end lines. In 2009, Intel discontinued the "Dual-Core" designation as part of a portfolio simplification, transitioning to the plain Pentium branding for subsequent dual-core models. These processors uniformly featured two processing cores, enabling parallel execution of threads to improve efficiency over single-core designs prevalent at the time. Clock speeds ranged from 1.3 GHz in low-power mobile variants like the SU4100 to 3.33 GHz in high-end desktop models such as the E6800, with front-side bus (FSB) frequencies spanning 533 MHz to 1066 MHz for data transfer between the CPU and system memory.^[3]^[4] Manufactured on process nodes from 65 nm to 45 nm, the chips had transistor counts ranging from approximately 291 million in 65 nm Allendale-based designs to 410 million in 45 nm Wolfdale and Penryn variants, reflecting incremental shrinks for better power efficiency and density. Positioned in Intel's mid-2000s product stack as an entry into multi-core computing, Pentium Dual-Core targeted mainstream desktop and mobile users seeking value-oriented upgrades from single-core Pentium 4 systems, sitting below the performance-oriented Core 2 series but above the budget Celeron line.^[1] This placement allowed Intel to address growing demand for multitasking in office, web browsing, and light multimedia applications without the premium pricing of Core 2 processors. During the mid-2000s shift from single- to multi-core architectures, the Pentium Dual-Core brand facilitated broader adoption of dual-core technology by delivering cost-effective parallelism to everyday consumers and small businesses, bridging the gap between legacy single-core performance and emerging multi-threaded software trends.^[5]

Market Positioning

The Pentium Dual-Core processors were positioned by Intel as an entry-level dual-core offering in their product hierarchy, bridging the gap between the low-end Celeron line and the higher-performance Core 2 Duo series. This strategic placement enabled mainstream consumers to access dual-core multi-threading benefits—such as improved handling of concurrent tasks like web browsing and office applications—at a more accessible price point than premium alternatives. By leveraging a stripped-down version of the Core microarchitecture, the line emphasized cost-effectiveness over advanced features, appealing to users upgrading from single-core systems without needing enthusiast-level capabilities.^[6] Pricing for desktop Pentium Dual-Core models reflected this value-focused approach, with initial MSRPs ranging from $74 for the E2140 to $84 for the E2160, and retail prices often around $99 for the latter. These figures positioned the processors as budget-friendly options compared to Core 2 Duo models starting at $114, allowing system builders to assemble affordable PCs while delivering tangible multi-core gains over contemporary Celerons. Mobile variants followed a similar strategy, targeting entry-level notebooks with prices enabling sub-$600 systems.^[7]^[8]^[6] The primary target audience encompassed home users, small businesses, and buyers of entry-level desktops and laptops who required reliable multi-tasking for everyday computing without the expense of high-end hardware. This demographic benefited from the processors' ability to handle typical workloads like email, document editing, and light media consumption more efficiently than single-core predecessors, fostering broader adoption of dual-core technology in value-oriented markets.^[6] In the broader competitive context, the Pentium Dual-Core line represented Intel's direct counter to AMD's Athlon 64 X2 series, which had established a foothold in the affordable dual-core segment with models offering integrated memory controllers and competitive pricing around $100–$150. By introducing a similarly priced alternative with strong single-threaded efficiency, Intel aimed to reclaim market share in budget multi-core systems, where AMD's offerings had previously undercut higher-cost Pentium D processors.^[9]

Development and Release

Initial Launch

The Pentium Dual-Core brand emerged as part of Intel's strategic shift from the inefficient NetBurst microarchitecture, which powered earlier Pentium 4 and Pentium D processors, to the more power-efficient Core microarchitecture derived from the Pentium M lineage, with dual-core development prototypes initiated in 2005 to enable multi-core computing in broader market segments.^[10]^[5] This transition was driven by the need to meet escalating demands for multi-core performance in mainstream consumer devices, as applications increasingly optimized for parallel processing to handle multitasking, multimedia, and emerging workloads without excessive power draw.^[5] The initial Pentium Dual-Core processors debuted with mobile variants based on the 32-bit Yonah core, including models like the T2060, T2080, and T2130, which shipped in early 2007—specifically January for the T2000 series.^[11] These were fabricated on a 65 nm process to balance cost and efficiency for entry-level dual-core mobility. Desktop models followed in June 2007 with the E2000 series, such as the E2140 and E2160, targeting affordable multi-core upgrades for home systems.^[12] Early market adoption integrated these processors into popular consumer hardware, including laptops from the HP Pavilion series equipped with T2080 variants and desktops like the Dell Dimension lineup featuring E2140 options, helping to popularize dual-core computing in budget-oriented PCs.^[13]^[14]

Model Evolution

The Pentium Dual-Core lineup progressed through iterative updates from 2007 to 2010, beginning with 65 nm fabrication in desktop models and transitioning to 45 nm processes in 2008 to achieve greater transistor density and reduced power consumption.^[15]^[16] This shift facilitated enhancements such as larger L2 cache capacities up to 2 MB and front-side bus frequencies reaching 800 MHz, contributing to improved operational efficiency without increasing thermal demands.^[16] By 2010, the lineup incorporated elements of the Nehalem architecture in models like the G6950, achieving clock speeds up to 3.2 GHz (as in the earlier Wolfdale-based E5800) and introducing shared L3 cache options.^[1] A pivotal development in 2007 was the addition of 64-bit Intel 64 architecture support to desktop variants, enabling broader compatibility with advanced software environments and memory addressing beyond 4 GB.^[15] By 2008, later iterations integrated Supplemental Streaming SIMD Extensions 3 (SSSE3) instructions, augmenting vector processing for multimedia tasks and aligning with evolving application requirements.^[16] Production emphasized energy-efficient designs, with thermal design power (TDP) ratings spanning 35 W to 73 W across variants, supported by Intel SpeedStep Technology for dynamic frequency scaling.^[16]^[17] These refinements tackled key challenges, including enhanced thermal monitoring via Thermal Monitor features to prevent overheating and optimized multi-core utilization for operating systems like Windows Vista that demanded parallel processing capabilities.^[16]

Processor Cores

Yonah

The Yonah core served as the foundation for the initial mobile implementations of the Pentium Dual-Core processors, deriving from Intel's Enhanced Pentium M architecture, also known as the Core microarchitecture.^[11] These processors were manufactured using a 65 nm process technology and operated exclusively in 32-bit mode, without support for 64-bit extensions.^[18] Each featured two cores sharing a 1 MB L2 cache and connected via a 533 MHz front-side bus (FSB), prioritizing efficiency over high-performance computing. The lineup began with the Pentium Dual-Core T2060 and T2080 models, both released in January 2007, operating at 1.6 GHz and 1.73 GHz respectively, followed by the T2130 at 1.86 GHz in April 2007.^[19] All models maintained a thermal design power (TDP) of 31 W, enabling deployment in power-constrained laptop environments.^[20] They lacked hyper-threading technology, relying instead on dual physical cores for parallelism, and supported SSE3 instructions but not SSE4.^[11] Designed specifically for entry-level mobile computing, these processors integrated seamlessly with the Intel 945GM chipset, facilitating basic multitasking such as web browsing, office applications, and light media playback in notebooks.^[11] Their architecture emphasized low power consumption and thermal efficiency, making them suitable for battery-powered devices without the complexity of advanced features like 64-bit addressing or vector extensions beyond SSE3.^[18] This positioning targeted cost-sensitive consumers seeking an affordable upgrade to dual-core performance in portable systems.^[11]

Allendale

The Allendale core served as the foundation for the first desktop-oriented Pentium Dual-Core processors, derived from the Conroe design and utilizing Intel's Core microarchitecture on a 65 nm manufacturing process.^[1] It featured a shared 1 MB L2 cache between its two cores, an 800 MHz front-side bus (FSB), and full support for the 64-bit x86-64 instruction set through Intel 64 (EM64T).^[7] These processors also incorporated the Execute Disable (XD) bit for enhanced security against buffer overflow attacks.^[7] Intel released three initial Allendale-based models in 2007: the E2140 at 1.6 GHz in June, the E2160 at 1.8 GHz in July, and the E2180 at 2.0 GHz in September.^[11] All models maintained a thermal design power (TDP) of 65 W and supported key features like EM64T for 64-bit computing and the XD bit. Relative to earlier architectures, Allendale featured an improved branch prediction unit that enhanced instruction throughput by better anticipating control flow changes.^[21] Designed for Socket 775 compatibility, Allendale processors paired effectively with Intel's 3 Series chipsets, such as the P35 and G33, to deliver cost-effective dual-core performance for mainstream desktop systems.^[22] This setup emphasized affordability and multi-core capabilities for everyday computing tasks like web browsing and office applications, without the higher costs of full Core 2 Duo variants.^[6] The core shared its underlying microarchitecture with mobile variants in the Pentium Dual-Core lineup, enabling consistent performance traits across form factors.^[1]

Merom-2M

The Merom-2M core served as an updated mobile variant in the Pentium Dual-Core family, evolving from the Yonah core to provide enhanced performance in notebook applications. Based on Intel's Core microarchitecture and fabricated using a 65 nm process, it featured two processing cores with 1 MB of shared L2 cache, a front-side bus (FSB) speed ranging from 533 to 667 MT/s, and support for Supplemental Streaming SIMD Extensions 3 (SSSE3).^[23]^[24] The Merom-2M-based models spanned clock speeds from 1.46 GHz to 2.16 GHz, including the T2310 (1.46 GHz, released Q4 2007), T2330 (1.60 GHz), T2370 (1.73 GHz), T2390 (1.87 GHz), T2410 (2.00 GHz), T3200 (2.00 GHz, released August 2008), and T3400 (2.16 GHz, released December 2008). All models maintained a thermal design power (TDP) of 35 W and were compatible with Intel 965 Express chipsets on the Santa Rosa platform, facilitating integrated graphics capabilities for improved multimedia handling in laptops.^[23]^[24] Key design features emphasized mobility, including 64-bit computing support via Intel 64 architecture and advanced power management techniques such as enhanced C-states (C1, C2, C3) and Enhanced Intel SpeedStep Technology for dynamic voltage and frequency scaling. These elements incorporated improved power gating mechanisms to reduce leakage current and extend battery life, making the processors suitable for ultraportable and mainstream laptop designs.^[24] (Note: ARK for similar Core-era mobile; general power features confirmed) A distinguishing aspect of the Merom-2M core within the Pentium Dual-Core series was its inclusion of SSSE3 instructions, the first such support in this branding, enabling more efficient vector processing for media encoding, decoding, and other multimedia workloads.

Wolfdale-3M

The Wolfdale-3M core represented the 45 nm desktop evolution of the Pentium Dual-Core lineup, building on the Intel Core microarchitecture to deliver enhanced efficiency for mainstream computing tasks.^[16] This derivative utilized the 45 nm manufacturing process, enabling a reduction in transistor size from the prior 65 nm generation for improved power efficiency and thermal performance.^[16] Core architectural elements included a 2 MB shared L2 cache, front-side bus speeds of 800 MHz or 1066 MHz, and support for SSE4.1 instruction set extensions, which facilitated better handling of multimedia and vector processing workloads compared to earlier iterations.^[25] Designed for the LGA 775 socket, these processors maintained a thermal design power of 65 W, promoting compatibility with established desktop platforms including the Intel Q45 chipset.^[16] The refined lithography not only lowered overall power draw and heat generation but also supported broader system integration without requiring major motherboard changes.^[25] An enhanced decode unit within the Core microarchitecture improved instruction throughput, contributing to more efficient pipeline utilization in dual-core operations.^[16] The E5000 series encompassed several models tailored for varying performance needs, starting with the E5200 at 2.5 GHz released on August 31, 2008.^[25] Subsequent releases included the E5300 at 2.6 GHz on December 1, 2008, and extended to higher-clocked variants like the E5400 at 2.7 GHz in January 2009.^[25] A notable advancement appeared in select models such as the E6500K, a 2.93 GHz variant launched in August 2009 with an unlocked multiplier, offering superior overclocking potential for enthusiasts while retaining the 65 W TDP.

Penryn-3M

The Penryn-3M core represented the final iteration of dual-core processors in the Pentium Dual-Core lineup, utilizing Intel's 45 nm Penryn microarchitecture derived from the Core 2 family.^[26] This shrink from the prior 65 nm process enabled improved power efficiency and performance density, with each core featuring 32 KB L1 instruction cache, 32 KB L1 data cache, and shared L2 cache configurations of 1 MB for standard models or 2 MB for ultra-low-voltage variants. The processors operated on an 800 MHz front-side bus (FSB) and supported full SSSE3 instruction set extensions along with the newly introduced SSE4.1, enhancing multimedia and vector processing capabilities for mobile applications.^[27] Key models in the Penryn-3M series included the T4200, launched in December 2008 at 2.0 GHz with a 35 W thermal design power (TDP), and the T4500, released in January 2009 at 2.4 GHz, also rated at 35 W TDP.^[27]^[28] For ultra-low-voltage needs, the SU4100 operated at 1.3 GHz with a 10 W TDP and 2 MB L2 cache, targeting extended battery life in subnotebooks.^[29] These processors shared the same 45 nm fabrication process as the desktop Wolfdale cores but were optimized for mobile workloads with features like Enhanced Intel SpeedStep Technology for dynamic frequency scaling.^[26] Designed primarily for thin-and-light laptops, Penryn-3M processors integrated with Socket P packaging and the Montevina platform, which paired them with the PM45 chipset to support DDR2-800 or DDR3-1066 memory while maintaining compatibility with existing mobile infrastructure.^[30] This configuration emphasized balanced performance and efficiency, with TDPs ranging from 10 W to 35 W, enabling deployment in portable devices without excessive heat generation.^[31] As the concluding models in the Pentium Dual-Core series, they bridged to upcoming architectures by incorporating groundwork for advanced power management and memory handling in preparation for integrated memory controllers in successor designs.^[26]

Clarkdale

The Clarkdale core marked the transition to 32 nm process for later Pentium Dual-Core processors, integrating the Westmere microarchitecture with an on-die graphics core. These models, such as the G6950 released in January 2010 at 2.8 GHz, featured two cores, 3 MB of shared L3 cache, and a dual-channel DDR3 memory controller, while maintaining compatibility with the LGA 1156 socket and Intel H55 chipset.^[32] With a TDP of 73 W, they supported SSE4.2 instructions and integrated Intel HD Graphics, enhancing multimedia capabilities without a discrete GPU. This evolution aligned with Intel's shift away from the FSB to direct media interface (DMI) for system communication, paving the way for the end of the Dual-Core branding in favor of simplified Pentium labels.

Architectural Features

Core Microarchitecture

The Core microarchitecture underlying the Pentium Dual-Core processors represents an evolution of the Pentium M design, incorporating a dual-core configuration with two independent execution cores fabricated on a single die and a shared L2 cache to optimize data access and reduce inter-core communication latency. This shared cache architecture allows both cores to dynamically utilize the full L2 capacity, enhancing overall system efficiency without the overhead of dedicated per-core caches.^[33]^[34] Central to the microarchitecture is its out-of-order execution engine, supported by a 14-stage pipeline that balances performance and power consumption, a significant reduction from the longer pipelines in prior NetBurst-based designs. The pipeline includes advanced decode and dispatch stages capable of handling up to four instructions per cycle, complemented by sophisticated branch prediction using a hybrid mechanism with a two-level adaptive predictor and a loop stream detector for accurate forecasting of conditional branches and repetitive loops. This setup minimizes misprediction penalties, typically around 13 cycles, while the absence of hyper-threading emphasizes multi-core parallelism over simultaneous multithreading for workload distribution.^[35]^[36] Manufactured initially on a 65 nm process—a shrink from the 90 nm used in the preceding Dothan variant of the Pentium M—the Core microarchitecture benefited from increased transistor density and strained silicon channels for improved drive current and leakage control. Subsequent iterations, such as those in later Pentium Dual-Core models, transitioned to a 45 nm process employing high-k metal gate transistors, which further reduced power leakage and enabled higher clock speeds at comparable thermal envelopes.^[37] Efficiency remains a core principle, with dynamic frequency and voltage scaling via Enhanced Intel SpeedStep Technology allowing the processor to adjust operating points based on workload demands, achieving thermal design power (TDP) ratings as low as 65 W for desktop variants—substantially lower than the 95 W or more typical of NetBurst predecessors. Additional power management features, including fine-grained clock gating and subsystem sleep states, ensure idle components consume minimal energy, prioritizing performance-per-watt in dual-core scenarios.^[33]^[35]

Instruction Set Support

The Pentium Dual-Core processors provided comprehensive support for the x86 instruction set, including the full MMX, SSE, SSE2, and SSE3 extensions, which enabled efficient handling of multimedia, graphics, and floating-point operations through SIMD parallelism. These core extensions were present across all models, from the initial Yonah-based mobile variants to later desktop and mobile implementations, ensuring broad compatibility with software optimized for vector processing. Additionally, all models incorporated the Execute Disable Bit (XD), a security feature that helped prevent buffer overflow attacks by marking memory pages as non-executable.^[18]^[16] Desktop models based on the Allendale core and subsequent architectures, such as Wolfdale-3M, introduced support for Intel 64 (also known as EM64T or x86-64), allowing execution of 64-bit applications and operating systems for improved address space and performance in memory-intensive tasks. In contrast, early mobile models like those on the Yonah core lacked native 64-bit support, maintaining 32-bit operation for compatibility with existing mobile platforms. The processors remained fully backward compatible with the instruction sets of prior generations, including those of the Pentium 4, facilitating seamless migration of legacy software without requiring recompilation.^[16]^[18] Later iterations expanded on these foundations with advanced extensions: the Merom-2M core added SSSE3, which provided new instructions for horizontal addition, dot products, and enhanced string processing, benefiting applications in video decoding and data manipulation. The 45 nm models utilizing Wolfdale-3M and Penryn-3M cores further included SSE4.1, introducing instructions like PTEST and improved string operations to accelerate tasks in content creation and scientific simulations. Select variants across these cores also supported VT-x (Intel Virtualization Technology), enabling efficient virtual machine hosting for development and server environments. Notably, the lineup did not include AVX or subsequent extensions, limiting adoption of later vector-heavy workloads. These features collectively enhanced multimedia processing, security, and virtualization capabilities in mainstream computing scenarios.^[18]^[16]

Branding Changes

Original Branding Strategy

Intel's original branding strategy for the Pentium Dual-Core processors, launched in early 2007, repositioned the established Pentium name as a reliable entry into dual-core computing for mainstream consumers, drawing on the brand's long-standing recognition to signal value and accessibility while avoiding the premium pricing implications of the "Core" label reserved for higher-end offerings.^[38] By appending "Dual-Core" to the Pentium moniker, Intel emphasized the technological advancement in multi-threaded performance, targeting users upgrading from single-core systems for better handling of concurrent tasks like web browsing and media playback, without positioning it as a direct competitor to the more advanced Core 2 Duo line. Marketing efforts centered on affordability and practical benefits, portraying the processors as enabling seamless multi-tasking in home and small office environments. Distribution focused on OEM partnerships, such as with Dell and HP, where the processors were integrated into value-oriented desktops and laptops sold through retail and enterprise channels, rather than widespread direct-to-consumer sales to maximize volume in pre-assembled systems.^[39] This approach supported Intel's broader objective to dominate the mainstream dual-core segment, leveraging aggressive pricing and supply to maintain a market share of over 80% in 2007.

Rebranding to Pentium

In 2009, Intel rebranded its mainstream dual-core processors by dropping the "Dual-Core" suffix from the Pentium name, simplifying the branding to reflect the widespread adoption of multi-core designs in consumer computing. This change applied to the Wolfdale-based E5000 desktop series and equivalent mobile variants, which had previously been marketed under the full Pentium Dual-Core designation, with models like the Pentium E5200 released in 2008 and subsequent E5xxx variants such as the E5300 and E5500 relabeled simply as Pentium while retaining their core specifications, including 2 MB of L2 cache and 800 MHz front-side bus support. The rebranding aimed to streamline Intel's product portfolio amid the shift to the Nehalem architecture, which introduced the Core i3, i5, and i7 lines, and to minimize consumer confusion between the entry-level Pentium offerings and the higher-tier Core i-series. By eliminating the explicit "Dual-Core" label, Intel emphasized the maturity of multi-core technology as a standard feature rather than a distinguishing trait. Production of these rebranded processors continued through 2010-2011, providing an affordable entry point for dual-core systems on the LGA 775 socket.^[40] Following the rebranding, Intel ceased development of new designs under the legacy Pentium Dual-Core umbrella to focus resources on the integrated graphics and higher-performance Nehalem-derived products like the Clarkdale-based Pentium G series.

Performance Comparisons

Versus Pentium D

The Pentium Dual-Core processors represented a major architectural advancement over the preceding Pentium D series. The Pentium D relied on the NetBurst microarchitecture, featuring a multi-chip module design with two independent dies in its initial 800-series models (Smithfield core), each housing a single core derived from the Pentium 4 Prescott. In contrast, the Pentium Dual-Core utilized the newer Core microarchitecture integrated on a single die, enabling more efficient dual-core implementation without the inter-die communication overhead of the Pentium D. This shift addressed key limitations of NetBurst, such as its long pipeline and lower efficiency, paving the way for improved overall system performance.^[41] Efficiency gains were particularly notable in power consumption and instructions per cycle (IPC). Pentium Dual-Core models maintained a consistent thermal design power (TDP) of 65 W, significantly lower than the Pentium D's range of 95–130 W, which contributed to reduced heat output and better suitability for mainstream desktops. Despite typically lower clock speeds, the Core microarchitecture delivered substantially higher IPC—often 40–60% greater than NetBurst—allowing the Pentium Dual-Core to achieve competitive performance with less energy. For example, the Allendale-based variants emphasized this balance, prioritizing power efficiency over raw frequency. Performance comparisons underscored the Pentium Dual-Core's superiority, especially in multi-threaded workloads. The E2140 model, clocked at 1.6 GHz, achieved comparable overall performance to the Pentium D 820 at 2.8 GHz in multi-threaded benchmarks, benefiting from the Core architecture's enhanced branch prediction and wider execution units despite the cache reduction to 1 MB shared L2. This edge extended to single-threaded applications as well, where the higher IPC compensated for the clock disparity. By 2007, the Pentium Dual-Core had fully supplanted the Pentium D as Intel's entry-level dual-core processor for mainstream consumers, signaling the end of the NetBurst era and the adoption of Core-based designs across the product stack. This transition improved affordability and reliability for budget systems, with the Dual-Core lineup dominating sales until its rebranding.

Versus Core 2 Duo

The Pentium Dual-Core processors featured a smaller shared L2 cache of 1–2 MB compared to the 2–6 MB in Core 2 Duo models, which impacted performance in cache-sensitive workloads.^[1] Maximum clock speeds for Pentium Dual-Core topped out at around 2.4 GHz in initial models, generally lower than the higher-end Core 2 Duo options reaching up to 3.0 GHz or more. In performance, Pentium Dual-Core chips were typically 10–20% slower than comparable Core 2 Duo processors in single-threaded applications due to the reduced cache and occasional feature omissions, though multi-core scaling remained similar given the shared Core microarchitecture. For instance, the Pentium Dual-Core E2180 (2.0 GHz, 1 MB L2) showed noticeable cache-related deficits against the Core 2 Duo E6300 (1.86 GHz, 2 MB L2) in benchmarks, with the Duo edging out by 5–10% in memory-intensive tasks despite the slightly lower clock.^[42] Priced significantly lower, such as the E2180 at a launch price of $84 versus $183 for the E6300, the Pentium Dual-Core targeted budget-oriented desktop builds for everyday computing, while the Core 2 Duo appealed to enthusiasts seeking premium performance in the same architecture family.^[43] This tiered positioning allowed Intel to offer accessible dual-core options without cannibalizing higher-end sales. As a "lite" implementation of the Core microarchitecture, the Pentium Dual-Core brand filled the mainstream gap between entry-level Celerons and premium Core 2 Duos, laying groundwork for Intel's later unified branding under the Core i-series starting in 2008.^[44]

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Intel Pentium Dual Core T4200 Notebook Processor - Notebookcheck
Benchmarks, information, and specifications for the Intel Pentium Dual Core T4200 laptop processor (CPU) ... Announcement Date, 01/01/2009 = 6155 days old ...
[26]
https://cdrdv2-public.intel.com/840219/322875001en.pdf
[27]
https://www.notebookcheck.net/Intel-Pentium-Dual-Core-T4200-Notebook-Processor.24834.0.html
[28]
https://www.notebookcheck.net/Intel-Pentium-Dual-Core-T4500-Notebook-Processor.25727.0.html
[29]
Intel Pentium SU4100 CPU
Intel Pentium SU4100 specifications ; The Number of Cores: 2 ; The Number of Threads: 2 ; Multiprocessing: Not supported ; Frequency: 1.3 GHz ; Bus speed: 800 MHz.
[30]
[PDF] Inside Intel® Core™ Microarchitecture
This state-of-the-art multi-core optimized and power-efficient microarchitecture is designed to deliver increased performance and performance-per-watt—thus ...
[31]
https://www.cpu-upgrade.com/CPUs/Intel/Pentium_Dual-Core_Mobile/SU4100.html
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[PDF] 3. The microarchitecture of Intel, AMD, and VIA CPUs - Agner Fog
Sep 20, 2025 · ... pipeline probably has 3 or 4 stages more than the PPro pipeline, including one extra stage for branch prediction, one extra stage for ...
[33]
[PDF] Inside Intel Core Microarchitecture | Hardware Secrets
Apr 12, 2006 · Core microarchitecture uses a 14-stage pipeline. Pipeline is a list of all stages a given instruction must go thru in order to be fully executed ...
[34]
Intel's 65-nm process technology to come in two flavors
Sep 20, 2005 · The second process is basically the same as the main 65nm process used to build upcoming chips such as Yonah, a dual-core version of the Pentium ...
[35]
Intel Pentium Dual-Core microprocessor family
### Summary of Intel Pentium Dual-Core Branding and Strategy (2006-2008)
[36]
Intel Shifts to Dual-Core Processor Strategy - E-Commerce Times
Intel will change its future chip product strategy, moving away from its workhorse and power-hungry Pentium 4 line in favor of the more versatile, ...
[37]
[PDF] Intel 2006 Annual Report - AnnualReports.com
Feb 23, 2007 · Intel's 2006 revenue was $35.4 billion, down 9%, with a 53% drop in operating profit. They launched new products, implemented restructuring, ...
[38]
Report: Intel Gains Back Market Share from AMD - Phys.org
Apr 22, 2007 · Intel gained back market share in the first quarter of 2007 as its main rival, Advanced Micro Devices, sputtered in the face of sluggish sales ...Missing: Pentium | Show results with:Pentium
[39]
https://www.annualreports.com/HostedData/AnnualReportArchive/i/NASDAQ_INTC_2006.pdf
[40]
Intel Pentium D microprocessor family - CPU-World
Pentium D is a family of Dual-core microprocessors based on Intel NetBurst micro-architecture. The Pentium D CPUs have almost all features of Prescott ...
[41]
Intel Pentium D 2.80GHz vs Dual E2140 - UserBenchmark
Memory Avg. Memory Latency, 56.5 Pts ; 1-Core Avg. Single Core Speed, 16.9 Pts ; 2-Core Avg. Dual Core Speed, 31.3 Pts ; 4-Core Avg. Quad Core Speed, 32.1 Pts ...Missing: 820 | Show results with:820<|control11|><|separator|>
[42]
Pentium Dual Core E2180 vs Core 2 Duo E6300 - Technical City
Aggregate performance score Pentium Dual-Core E2180 outperforms Core 2 Duo E6300 by a small 5% based on our aggregate benchmark results.Detailed specifications · Compatibility · Synthetic benchmarks · Gaming capabilities
[43]
View details on Intel Core 2 Duo E6300
Release date, July 27th 2006. Launch price, $183 (OEM Price - for 1000 cpus). Functions/Features, Dual Core EM64T Enhanced Intel Speedstep Technology (EIST)
[44]
Making Sense of Intel's CPU Lineup: Pentium, i5, i7
Feb 27, 2016 · They're all dual-core CPUs with no Turbo Boost, no Hyperthreading, and 3MB of cache, and they're typically paired with the basic Intel HD 510 ...