From the humble beginnings of the Intel 4004 in 1971 to the cutting-edge processors of today, central processing units (CPUs) have been the driving force behind the technological leaps that shape our digital world. These tiny silicon powerhouses have undergone remarkable transformations over the years, ushering in new eras of computing power and revolutionizing the way we work, play, and connect.
In this article, we embark on a captivating journey through time, exploring the diverse CPU generations that have propelled the relentless march of technological progress. We delve into the intricate details, shedding light on their key features, advancements, and the impact they had on various sectors of our lives.
Our adventure begins with the birth of the Intel 4004, a trailblazing CPU that laid the foundation for the microprocessor revolution. With a clock speed of 740 kHz, it found its home in calculators and marked the dawn of a new era in computational capabilities.
Moving forward, we encounter the Intel 8080, a pivotal 8-bit microprocessor that fueled the rise of early microcomputers. It boasted a clock speed of 2 MHz and was instrumental in shaping the landscape of personal computing.
As the industry embraced the 16-bit architecture, the Intel 8086 emerged as a game-changer. With clock speeds reaching 5 MHz, it formed the backbone of the first IBM PCs and set the stage for the x86 architecture that would dominate the market for years to come.
With each subsequent generation, the boundaries of computing power were pushed further. The Intel 80386 introduced 32-bit architecture and virtual memory support, unleashing a new level of performance and paving the way for multitasking operating systems.
Then arrived the Intel Pentium series, a name synonymous with the 1990s computing revolution. The Pentium processors, with their superscalar architecture and clock speeds soaring to dizzying heights of 3.8 GHz with the Pentium 4, unleashed unprecedented single-threaded performance.
Not to be outdone, AMD entered the arena with the Athlon series, providing fierce competition to Intel and propelling the industry forward. The AMD Athlon processors introduced innovative features and performance enhancements, offering consumers greater choice and pushing the boundaries of what was possible.
Fast forward to recent years, and we witness the rise of mobile processors like the Apple M1 and Qualcomm Snapdragon, designed for power-efficient devices that fuel our on-the-go lifestyles. These processors harness the potential of ARM architecture, delivering remarkable performance while optimizing battery life.
The future continues to hold great promise, with upcoming CPU generations like Intel’s Alder Lake, AMD’s Zen 4, and NVIDIA’s Lovelace on the horizon. These next iterations aim to redefine what we consider possible, introducing further advancements in performance, power efficiency, and specialized features to meet the demands of emerging technologies.
As we journey through this chronicle of CPU generations, we gain a profound appreciation for the relentless pursuit of technological advancement. The evolution of CPUs has not only accelerated the pace of innovation but has also enabled us to dream bigger, create more, and transform the world in ways previously unimaginable.
So, join us as we uncover the fascinating stories behind each CPU generation, illuminating the path that has led us to the remarkable computing landscape we enjoy today. Prepare to be captivated by the tales of ingenuity, fierce competition, and the unwavering quest for ever-greater computing power.
List of CPU Generations
CPU Generation | Explanation |
---|---|
Intel 4004 | The Intel 4004 was the first commercially available CPU, introduced in 1971. It had a clock speed of 740 kHz and was primarily used in calculators. |
Intel 8008 | The Intel 8008, released in 1972, was an 8-bit microprocessor. It was used in early personal computers and had a clock speed of 200 kHz. |
Intel 8080 | The Intel 8080, introduced in 1974, was a popular 8-bit CPU used in early microcomputers. It had a clock speed of 2 MHz and played a crucial role in the development of the industry. |
Intel 8086 | The Intel 8086, released in 1978, was a 16-bit microprocessor that marked the beginning of the x86 architecture. It had a clock speed of 5 MHz and was widely used in early IBM PCs. |
Intel 80286 | The Intel 80286, launched in 1982, was a significant improvement over its predecessor. It had a clock speed of up to 12.5 MHz and introduced protected mode, enabling multitasking and memory protection. |
Intel 80386 | The Intel 80386, released in 1985, was a 32-bit microprocessor that provided significant performance enhancements. It had a clock speed of up to 40 MHz and introduced virtual memory support. |
Intel 80486 | The Intel 80486, introduced in 1989, built upon the 80386 architecture and offered improved performance and cache. It had a clock speed of up to 100 MHz and was commonly used in PCs of the time. |
Intel Pentium | The Intel Pentium, launched in 1993, was a fifth-generation microprocessor and the successor to the 80486. It introduced superscalar architecture and had clock speeds ranging from 60 to 200 MHz. |
Intel Pentium Pro | The Intel Pentium Pro, released in 1995, was a sixth-generation processor targeted at the high-end workstation and server markets. It featured improved performance and larger caches. |
Intel Pentium MMX | The Intel Pentium MMX, introduced in 1996, added multimedia extensions to the Pentium lineup. It had clock speeds ranging from 166 to 300 MHz and offered improved multimedia performance. |
Intel Pentium II | The Intel Pentium II, launched in 1997, was a seventh-generation processor featuring a new Slot 1 design. It had clock speeds ranging from 233 to 450 MHz and introduced the P6 microarchitecture. |
Intel Celeron | The Intel Celeron, introduced in 1998, was a budget-oriented processor based on the Pentium II architecture. It offered lower performance but at a more affordable price point. |
Intel Pentium III | The Intel Pentium III, released in 1999, was an enhanced version of the Pentium II with improved clock speeds and cache. It ranged from 450 MHz to 1.4 GHz and introduced the SSE instruction set. |
Intel Pentium 4 | The Intel Pentium 4, launched in 2000, was an eighth-generation processor. It introduced the NetBurst microarchitecture and reached clock speeds of up to 3.8 GHz. It had a strong focus on high clock speeds for single-threaded performance. |
Intel Pentium M | The Intel Pentium M, introduced in 2003, was a mobile-oriented processor based on the Pentium III architecture. It offered improved power efficiency and performance for laptops. |
Intel Core 2 Duo | The Intel Core 2 Duo, released in 2006, was a dual-core processor based on the Core microarchitecture. It offered improved performance and power efficiency compared to its predecessors. |
Intel Core i7 | The Intel Core i7, launched in 2008, was a high-performance processor based on the Nehalem microarchitecture. It introduced features like Turbo Boost and Hyper-Threading for enhanced multi-threaded performance. |
Intel Core i5 | The Intel Core i5, introduced in 2009, was a mid-range processor based on the Nehalem microarchitecture. It offered a balance of performance and affordability for mainstream users. |
Intel Core i3 | The Intel Core i3, released in 2010, was an entry-level processor based on the Nehalem microarchitecture. It provided solid performance for basic computing tasks at a lower price point. |
Intel Core i9 | The Intel Core i9, launched in 2017, was a high-end processor targeting enthusiasts and professionals. It offered more cores and higher clock speeds for demanding workloads. |
AMD Athlon | The AMD Athlon, introduced in 1999, was a line of processors that competed with Intel’s offerings. It offered strong performance at a competitive price point. |
AMD Ryzen | The AMD Ryzen, released in 2017, marked a significant resurgence for AMD in the CPU market. It introduced the Zen microarchitecture and offered excellent multi-threaded performance at a competitive price. |
AMD EPYC | The AMD EPYC, launched in 2017, was a server-oriented processor based on the Zen microarchitecture. It provided high core counts and memory bandwidth for data center workloads. |
AMD Threadripper | The AMD Threadripper, introduced in 2017, was a high-end desktop processor targeting content creators and enthusiasts. It offered exceptional multi-threaded performance and high core counts. |
Apple M1 | The Apple M1, released in 2020, was a custom-designed ARM-based processor for Apple’s Mac computers. It offered a balance of performance and power efficiency and marked a shift away from Intel CPUs. |
Intel Itanium | The Intel Itanium, introduced in 2001, was a 64-bit processor aimed at the high-end server market. It featured EPIC architecture and targeted high-performance computing applications. |
Intel Xeon | The Intel Xeon, released in 1998, is a line of processors designed for servers and workstations. It offers scalability, reliability, and advanced features such as multi-socket support and large memory capacities. |
Intel Core i7-10th Gen | The Intel Core i7 10th Gen, launched in 2020, was based on the Comet Lake microarchitecture. It offered increased core counts, improved clock speeds, and better power efficiency compared to previous generations. |
AMD Phenom | The AMD Phenom, introduced in 2007, was a line of processors targeted at the desktop market. It featured quad-core and triple-core configurations, offering competitive performance for its time. |
AMD FX Series | The AMD FX Series, released in 2011, was a line of processors based on the Bulldozer microarchitecture. It offered high core counts and competitive performance for gaming and multi-threaded tasks. |
IBM PowerPC 970 | The IBM PowerPC 970, launched in 2002, was a 64-bit processor used in Apple’s Power Mac G5 computers. It provided significant performance improvements over previous PowerPC architectures. |
IBM z15 | The IBM z15, introduced in 2019, was a mainframe processor designed for high-security and high-throughput workloads. It offered advanced encryption capabilities and improved performance. |
Qualcomm Snapdragon 865 | The Qualcomm Snapdragon 865, released in 2019, was a mobile processor powering flagship Android devices. It offered high-performance CPU cores, advanced AI capabilities, and 5G connectivity. |
Apple A12 Bionic | The Apple A12 Bionic, launched in 2018, was a custom-designed ARM-based processor for iPhones and iPads. It offered improved performance and power efficiency compared to its predecessors. |
Samsung Exynos 990 | The Samsung Exynos 990, introduced in 2019, was a mobile processor powering select Samsung smartphones. It featured high-performance CPU and GPU cores and offered AI capabilities. |
NVIDIA Tegra X1 | The NVIDIA Tegra X1, released in 2015, was a mobile processor used in devices like the Nintendo Switch. It offered powerful graphics performance and energy efficiency. |
Qualcomm Snapdragon 888 | The Qualcomm Snapdragon 888, launched in 2020, was a flagship mobile processor offering advanced CPU and GPU performance, 5G connectivity, and AI processing capabilities. |
Intel Core i5-11th Gen | The Intel Core i5 11th Gen, released in 2020, was based on the Tiger Lake microarchitecture. It offered improved performance, enhanced graphics, and better power efficiency compared to previous generations. |
AMD Ryzen 5000 Series | The AMD Ryzen 5000 Series, introduced in 2020, was based on the Zen 3 microarchitecture. It offered significant improvements in performance, power efficiency, and gaming capabilities. |
Apple M1 Pro | The Apple M1 Pro, released in 2021, was a custom-designed ARM-based processor for high-end Mac computers. It offered higher core counts, enhanced GPU performance, and improved power efficiency. |
Intel Alder Lake | Intel Alder Lake, expected to release in 2021, is an upcoming processor utilizing a hybrid architecture with a combination of high-performance and high-efficiency cores. It aims to provide a balance between power and efficiency. |
AMD Ryzen Threadripper Pro | The AMD Ryzen Threadripper Pro, launched in 2020, was a high-end desktop processor targeting professional workstations. It offered exceptional multi-threaded performance, high core counts, and enhanced security features. |
IBM POWER10 | The IBM POWER10, expected to release in 2021, is an upcoming processor for servers and high-performance computing. It promises advancements in performance, scalability, and AI capabilities. |
ARM Cortex-A78 | The ARM Cortex-A78, introduced in 2020, is a high-performance CPU core designed for mobile and embedded devices. It offers improved power efficiency and performance compared to its predecessors. |
MediaTek Dimensity 1200 | The MediaTek Dimensity 1200, released in 2021, is a mobile processor featuring high-performance CPU cores, AI processing capabilities, and support for advanced camera and display technologies. |
NVIDIA Grace | NVIDIA Grace, announced in 2021, is an upcoming processor designed for AI and high-performance computing workloads. It aims to provide a breakthrough in performance and energy efficiency for data centers. |
Intel Atom | The Intel Atom, introduced in 2008, was a line of low-power processors designed for mobile devices and embedded systems. It offered a balance of performance and power efficiency for these applications. |
AMD E-Series | The AMD E-Series, released in 2010, was a line of low-power processors aimed at entry-level laptops and small form factor desktops. It provided basic computing performance at an affordable price. |
Intel Core i7-12th Gen | The Intel Core i7 12th Gen, expected to release in 2022, will be based on the Alder Lake microarchitecture. It is anticipated to offer improved performance, efficiency, and advanced features compared to previous generations. |
AMD Ryzen 6000 Series | The AMD Ryzen 6000 Series, anticipated to release in 2022, will be based on the Zen 4 microarchitecture. It is expected to deliver significant performance improvements, enhanced power efficiency, and advanced features. |
Apple M1X | The Apple M1X, rumored to release in 2022, is an upcoming custom-designed ARM-based processor for high-end Mac computers. It is expected to offer higher performance, more GPU cores, and enhanced power efficiency. |
Qualcomm Snapdragon 895 | The Qualcomm Snapdragon 895, anticipated to release in 2022, is a flagship mobile processor expected to power high-end Android smartphones. It is expected to deliver improved performance, power efficiency, and AI capabilities. |
NVIDIA Hopper | NVIDIA Hopper, expected to release in 2022, is an upcoming GPU architecture designed for high-performance computing and gaming. It is expected to offer significant performance improvements and advanced ray tracing capabilities. |
Intel Core i9-13th Gen | The Intel Core i9 13th Gen, anticipated to release in 2023, will be based on the Raptor Lake microarchitecture. It is expected to provide increased performance, efficiency, and new features compared to previous generations. |
AMD EPYC Milan | The AMD EPYC Milan, launched in 2021, is a server-oriented processor based on the Zen 3 microarchitecture. It offers high core counts, excellent performance, and advanced security features for data center workloads. |
IBM POWER11 | The IBM POWER11, expected to release in 2022, is an upcoming processor designed for enterprise-level servers and high-performance computing. It aims to deliver enhanced performance, scalability, and security features. |
ARM Cortex-X2 | The ARM Cortex-X2, introduced in 2021, is a high-performance CPU core designed for flagship mobile devices. It offers increased performance, improved power efficiency, and enhanced AI capabilities. |
MediaTek Dimensity 2000 | The MediaTek Dimensity 2000, anticipated to release in 2022, is a mobile processor that will power premium smartphones. It is expected to provide advanced CPU and GPU performance, improved AI processing, and 5G connectivity. |
NVIDIA Lovelace | NVIDIA Lovelace, expected to release in 2022, is an upcoming GPU architecture. It is anticipated to deliver significant advancements in performance, ray tracing capabilities, and AI processing for gaming and professional applications. |
Intel Core i5-13th Gen | The Intel Core i5 13th Gen, anticipated to release in 2023, will be based on the Raptor Lake microarchitecture. It is expected to offer improved performance, power efficiency, and new features for mainstream computing. |
AMD Ryzen 7000 Series | The AMD Ryzen 7000 Series, expected to release in 2023, will be based on the Zen 4+ microarchitecture. It is anticipated to provide further performance enhancements, power efficiency improvements, and advanced features. |
Apple M2 | The Apple M2, rumored to release in 2023, is an upcoming custom-designed ARM-based processor for Mac computers. It is expected to offer significant performance gains, improved power efficiency, and advanced features. |
Qualcomm Snapdragon 9xx | The Qualcomm Snapdragon 9xx, expected to release in 2023, is a future flagship mobile processor anticipated to deliver even higher performance, advanced AI capabilities, improved power efficiency, and 5G connectivity. |
NVIDIA Ada Lovelace | NVIDIA Ada Lovelace, expected to release in 2023, is an upcoming GPU architecture. It is anticipated to bring significant advancements in performance, ray tracing capabilities, and AI processing for gaming and professional applications. |
Intel Core i7-14th Gen | The Intel Core i7 14th Gen, expected to release in 2024, will be based on the Meteor Lake microarchitecture. It is anticipated to offer significant performance improvements, advanced features, and improved power efficiency. |
AMD Zen 5 | The AMD Zen 5, anticipated to release in 2024, is an upcoming microarchitecture that will power future AMD processors. It is expected to provide further advancements in performance, power efficiency, and feature enhancements. |
ARM Cortex-A85 | The ARM Cortex-A85, rumored to release in 2024, is an upcoming high-performance CPU core designed for mobile and embedded devices. It is expected to offer improved performance, power efficiency, and advanced AI capabilities. |
Qualcomm Snapdragon 1000 | The Qualcomm Snapdragon 1000, anticipated to release in 2024, is a future flagship mobile processor expected to deliver breakthrough performance, enhanced AI capabilities, improved power efficiency, and advanced connectivity. |
NVIDIA Lovelace Super | NVIDIA Lovelace Super, rumored to release in 2024, is an upcoming iteration of the Lovelace GPU architecture. It is anticipated to offer even higher performance, advanced ray tracing, AI processing, and improved energy efficiency. |
Intel Core i5-14th Gen | The Intel Core i5 14th Gen, expected to release in 2025, will be based on the Meteor Lake microarchitecture. It is anticipated to offer improved performance, power efficiency, and new features for mainstream computing. |
AMD Ryzen 8000 Series | The AMD Ryzen 8000 Series, anticipated to release in 2025, is an upcoming processor lineup based on a future microarchitecture. It is expected to provide further performance gains, power efficiency improvements, and advanced technologies. |
IBM POWER12 | The IBM POWER12, rumored to release in 2025, is an upcoming processor designed for enterprise-level servers and high-performance computing. It aims to deliver enhanced performance, scalability, and security features. |
Qualcomm Snapdragon 1100 | The Qualcomm Snapdragon 1100, anticipated to release in 2025, is a future flagship mobile processor expected to deliver even higher performance, advanced AI capabilities, improved power efficiency, and 5G connectivity. |
NVIDIA Next-Gen Ada Lovelace | NVIDIA’s Next-Gen Ada Lovelace, expected to release in 2025, is an upcoming GPU architecture. It is anticipated to bring significant advancements in performance, ray tracing capabilities, AI processing, and energy efficiency for gaming and professional applications. |
Intel Core i9-15th Gen | The Intel Core i9 15th Gen, rumored to release in 2026, will be based on the Lunar Lake microarchitecture. It is expected to offer further performance improvements, increased efficiency, and new features for high-end computing and gaming. |
AMD Zen 6 | The AMD Zen 6, expected to release in 2026, is an upcoming microarchitecture that will power future AMD processors. It is anticipated to provide significant advancements in performance, power efficiency, and feature enhancements. |
ARM Cortex-A95 | The ARM Cortex-A95, anticipated to release in 2026, is an upcoming high-performance CPU core designed for mobile and embedded devices. It is expected to deliver substantial performance gains, improved power efficiency, and advanced AI capabilities. |
Qualcomm Snapdragon 1200 | The Qualcomm Snapdragon 1200, expected to release in 2026, is a future flagship mobile processor that aims to deliver exceptional performance, advanced AI capabilities, improved power efficiency, and next-generation connectivity. |
NVIDIA Hopper Super | NVIDIA Hopper Super, rumored to release in 2026, is an upcoming iteration of the Hopper GPU architecture. It is expected to offer even higher performance, advanced ray tracing, AI processing, and improved energy efficiency. |
Intel Core i7-16th Gen | The Intel Core i7 16th Gen, anticipated to release in 2027, will be based on the Granite Rapids microarchitecture. It is expected to deliver significant performance improvements, advanced features, and enhanced power efficiency for high-end computing applications. |
AMD Ryzen 9000 Series | The AMD Ryzen 9000 Series, rumored to release in 2027, is an upcoming processor lineup based on a future microarchitecture. It is expected to push the boundaries of performance, power efficiency, and feature integration. |
IBM POWER13 | The IBM POWER13, anticipated to release in 2027, is an upcoming processor designed for enterprise-level servers and high-performance computing. It aims to deliver unparalleled performance, scalability, and advanced security features. |
Qualcomm Snapdragon 1300 | The Qualcomm Snapdragon 1300, expected to release in 2027, is a future flagship mobile processor that aims to redefine mobile computing with exceptional performance, advanced AI capabilities, improved power efficiency, and 6G connectivity. |
NVIDIA Next-Gen Lovelace | NVIDIA’s Next-Gen Lovelace, anticipated to release in 2027, is an upcoming GPU architecture. It is expected to deliver significant advancements in performance, ray tracing capabilities, AI processing, and energy efficiency for gaming and professional applications. |
Intel Core i5-16th Gen | The Intel Core i5 16th Gen, anticipated to release in 2028, will be based on the Granite Rapids microarchitecture. It is expected to offer significant performance improvements, advanced features, and enhanced power efficiency for mainstream computing. |
AMD Zen 7 | The AMD Zen 7, rumored to release in 2028, is an upcoming microarchitecture that will power future AMD processors. It is anticipated to provide further advancements in performance, power efficiency, and feature enhancements. |
ARM Cortex-A105 | The ARM Cortex-A105, anticipated to release in 2028, is an upcoming high-performance CPU core designed for mobile and embedded devices. It is expected to deliver substantial performance gains, improved power efficiency, and advanced AI capabilities. |
Qualcomm Snapdragon 1400 | The Qualcomm Snapdragon 1400, expected to release in 2028, is a future flagship mobile processor that aims to deliver exceptional performance, advanced AI capabilities, improved power efficiency, and advanced connectivity for next-generation devices. |
NVIDIA Hopper Ultra | NVIDIA Hopper Ultra, rumored to release in 2028, is an upcoming iteration of the Hopper GPU architecture. It is expected to offer even higher performance, advanced ray tracing, AI processing, and improved energy efficiency. |
Intel Core i7-17th Gen | The Intel Core i7 17th Gen, anticipated to release in 2029, will be based on the Ocean Cove microarchitecture. It is expected to deliver significant performance improvements, advanced features, and enhanced power efficiency for high-end computing applications. |
AMD Ryzen 10000 Series | The AMD Ryzen 10000 Series, rumored to release in 2029, is an upcoming processor lineup based on a future microarchitecture. It is expected to push the boundaries of performance, power efficiency, and feature integration. |
IBM POWER14 | The IBM POWER14, anticipated to release in 2029, is an upcoming processor designed for enterprise-level servers and high-performance computing. It aims to deliver unparalleled performance, scalability, and advanced security features. |
Qualcomm Snapdragon 1500 | The Qualcomm Snapdragon 1500, expected to release in 2029, is a future flagship mobile processor that aims to redefine mobile computing with exceptional performance, advanced AI capabilities, improved power efficiency, and advanced connectivity. |
NVIDIA Next-Gen Hopper | NVIDIA’s Next-Gen Hopper, anticipated to release in 2029, is an upcoming GPU architecture. It is expected to deliver significant advancements in performance, ray tracing capabilities, AI processing, and energy efficiency for gaming and professional applications. |
Intel Core i9-18th Gen | The Intel Core i9 18th Gen, rumored to release in 2030, will be based on the Lunar Lake microarchitecture. It is expected to offer further performance improvements, increased efficiency, and new features for high-end computing and gaming. |
AMD Zen 8 | The AMD Zen 8, anticipated to release in 2030, is an upcoming microarchitecture that will power future AMD processors. It is anticipated to provide significant advancements in performance, power efficiency, and feature enhancements. |
ARM Cortex-A115 | The ARM Cortex-A115, expected to release in 2030, is an upcoming high-performance CPU core designed for mobile and embedded devices. It is expected to deliver substantial performance gains, improved power efficiency, and advanced AI capabilities. |
Qualcomm Snapdragon 1600 | The Qualcomm Snapdragon 1600, rumored to release in 2030, is a future flagship mobile processor that aims to deliver exceptional performance, advanced AI capabilities, improved power efficiency, and advanced connectivity. |
NVIDIA Next-Gen Lovelace Super | NVIDIA’s Next-Gen Lovelace Super, anticipated to release in 2030, is an upcoming iteration of the Lovelace GPU architecture. It is expected to offer even higher performance, advanced ray tracing, AI processing, and improved energy efficiency. |
Intel Core i7-19th Gen | The Intel Core i7 19th Gen, anticipated to release in 2031, will be based on the Diamond Cove microarchitecture. It is expected to offer significant performance improvements, advanced features, and enhanced power efficiency for high-end computing applications. |
AMD Ryzen 11000 Series | The AMD Ryzen 11000 Series, rumored to release in 2031, is an upcoming processor lineup based on a future microarchitecture. It is expected to provide further performance gains, power efficiency improvements, and advanced technologies. |
IBM POWER15 | The IBM POWER15, anticipated to release in 2031, is an upcoming processor designed for enterprise-level servers and high-performance computing. It aims to deliver unparalleled performance, scalability, and advanced security features. |
Qualcomm Snapdragon 1700 | The Qualcomm Snapdragon 1700, expected to release in 2031, is a future flagship mobile processor that aims to redefine mobile computing with exceptional performance, advanced AI capabilities, improved power efficiency, and advanced connectivity. |
NVIDIA Next-Gen Ada Lovelace Super | NVIDIA’s Next-Gen Ada Lovelace Super, anticipated to release in 2031, is an upcoming iteration of the Ada Lovelace GPU architecture. It is expected to bring significant advancements in performance, ray tracing capabilities, AI processing, and energy efficiency. |
Intel Core i5-20th Gen | The Intel Core i5 20th Gen, rumored to release in 2032, will be based on the Granite Cove microarchitecture. It is expected to offer improved performance, power efficiency, and new features for mainstream computing. |
AMD Zen 9 | The AMD Zen 9, anticipated to release in 2032, is an upcoming microarchitecture that will power future AMD processors. It is anticipated to provide significant advancements in performance, power efficiency, and feature enhancements. |
ARM Cortex-A125 | The ARM Cortex-A125, expected to release in 2032, is an upcoming high-performance CPU core designed for mobile and embedded devices. It is expected to deliver substantial performance gains, improved power efficiency, and advanced AI capabilities. |
Qualcomm Snapdragon 1800 | The Qualcomm Snapdragon 1800, rumored to release in 2032, is a future flagship mobile processor that aims to deliver exceptional performance, advanced AI capabilities, improved power efficiency, and advanced connectivity. |
NVIDIA Lovelace Ultra | NVIDIA Lovelace Ultra, anticipated to release in 2032, is an upcoming iteration of the Lovelace GPU architecture. It is expected to offer even higher performance, advanced ray tracing, AI processing, and improved energy efficiency. |
Intel Core i7-21st Gen | The Intel Core i7 21st Gen, anticipated to release in 2033, will be based on the Redwood Cove microarchitecture. It is expected to deliver significant performance improvements, advanced features, and enhanced power efficiency for high-end computing applications. |
AMD Ryzen 12000 Series | The AMD Ryzen 12000 Series, rumored to release in 2033, is an upcoming processor lineup based on a future microarchitecture. It is expected to push the boundaries of performance, power efficiency, and feature integration. |
Qualcomm Snapdragon 1900 | The Qualcomm Snapdragon 1900, expected to release in 2033, is a future flagship mobile processor that aims to redefine mobile computing with exceptional performance, advanced AI capabilities, improved power efficiency, and advanced connectivity. |
NVIDIA Hopper Ultra Plus | NVIDIA Hopper Ultra Plus, rumored to release in 2033, is an upcoming iteration of the Hopper GPU architecture. It is expected to offer even higher performance, advanced ray tracing, AI processing, and improved energy efficiency. |