Platform

Desktop

Product Family

AMD Ryzen™ PRO Processors

Product Line

AMD Ryzen™ Threadripper™ PRO 5000 WX-Series

AMD PRO Technologies

Yes

Consumer Use

No

Regional Availability

Global, China, NA, EMEA, APJ, LATAM

Former Codename

"Chagall PRO"

Architecture

"Zen 3"

# of CPU Cores

32

# of Threads

64

Max. Boost Clock

Up to 4.5GHz

Base Clock

3.6GHz

The company reported for the third quarter of fiscal year 2023 A few days after Intel, AMD also published its financial report. The company has completed the third quarter of fiscal year 2023. [caption id="attachment_78911" align="aligncenter" width="780"] AMD's[/caption] If Intel's revenue decreased and net profit fell by more than 70%, then AMD's situation is better. Revenue rose 8% to $5.8 billion, and operating profit amounted to $224 million versus a loss of $64 million a year earlier. Net income rose more than 1,000% to $299 million. AMD's net profit grew by 1000% and equaled Intel's net profit By the way, Intel's net profit was only $1 million higher, which is very interesting. At the same time, Intel's revenue is almost 2.5 times higher than that of its competitor. It’s also worth noting that the data center products segment did not grow year-on-year in the past quarter, although it has been actively driving AMD’s revenue upward in recent years. But sales in the consumer segment increased by 42%, mainly due to the full entry into the market of Ryzen 7000 mobile APUs. AMD's gaming business fell 8% due to lower revenue from sales of semi-custom products.

Hii ! Can I please ask what is your PC specs, or what PC do you use? Tysm🥹💗

hi love, of course you can! my pc is a completely self build custom pc, but it's very very old now (from 2018/19) the specs are: cpu: amd ryzen threadripper 1920x 12-core processor ram: 64gb (yes it's a lot) 3 ssd's (one 2 tb and two one tb's) geforce rtx 2080 if you wanna know anything else, feel free to ask! <3

Recommended Dell workstations for video editing

Dell Precision workstations are recommended for expert video editing. The Dell Precision 7920 Tower, 7875 Tower, and 5820 Tower are all outstanding options, with potent CPUs, plenty of RAM, and top-notch graphics cards that enable seamless editing and rendering. The Dell Precision 5570 or 5770 mobile workstations are also excellent alternatives if you want a balance between mobility and performance.

Dell Precision Tower Workstations:

• Dell Precision 7920 Tower:

This workstation is intended for demanding workloads and has premium graphics cards, like the NVIDIA RTX A6000, as well as a lot of RAM and strong CPUs.

• Dell Precision 7875 Tower:

This workstation provides a balance between cost and performance, with choices for potent NVIDIA RTX A5500 graphics cards and AMD Ryzen Threadripper PRO CPUs.

 • Dell Precision 5820 Tower:

A reliable video editing workstation with NVIDIA Quadro or RTX graphics cards and Intel Xeon CPUs.

 Dell Precision Mobile Workstations:

• Dell Precision 5570/5770:

These mobile workstations have specialized NVIDIA graphics cards, high-resolution screens, and powerful CPUs, striking a nice balance between performance and mobility.

Important Factors for Video Editing Workstations:

 • CPU:

For effective video rendering and editing, seek processors with a high core count (Intel Xeon or AMD Ryzen Threadripper PRO).

 • RAM (memory):

When dealing with high-resolution video, 32 GB or more is advised for optimal performance.

 • Graphics Card:

For speeding up video editing and rendering tasks, a specialized NVIDIA Quadro or RTX graphics card is essential.

 • Storage:

A fast SSD storage is necessary for speedy loading times and effective editing procedures. For the best performance, think about NVMe SSDs.

 • Display:

For precise color grading and editing, a high-resolution display (4K or higher) with excellent color accuracy is essential.

Additional Dell Options:

 Other Dell laptops, such as the XPS series (particularly the XPS 15 and XPS 17), can also perform video editing functions, particularly for users who need portability or are working on less demanding projects, even though the Precision series is intended for professional applications. Due to their strong hardware and high refresh rate displays, the Alienware series, which is mostly used for gaming, can also be used for video editing.

Before selecting a Dell workstation for video editing, take into account your unique needs, budget, and priority for portability

Multi-Core Computer Processors Market: Policy Impact and Regulatory Landscape 2025–2032

MARKET INSIGHTS

The global Multi-Core Computer Processors Market size was valued at US$ 67.34 billion in 2024 and is projected to reach US$ 128.67 billion by 2032, at a CAGR of 8.4% during the forecast period 2025-2032. The U.S. market accounted for 32% of global revenue in 2024, while China is expected to witness the fastest growth with a projected CAGR of 9.2% through 2032.

Multi-core processors are integrated circuits containing two or more processing units (cores) that read and execute program instructions simultaneously, significantly enhancing computational power and energy efficiency. These processors are categorized into dual-core, quad-core, eight-core, and higher configurations, each designed to meet specific performance requirements across various computing applications. The technology enables parallel processing, allowing multiple tasks to be executed simultaneously rather than sequentially.

The market growth is driven by increasing demand for high-performance computing across industries, particularly in data centers, AI applications, and gaming. The shift toward cloud computing and edge computing infrastructure has further accelerated adoption, as these technologies require processors capable of handling complex workloads efficiently. Meanwhile, innovations in semiconductor manufacturing, including the transition to smaller nanometer nodes, continue to push performance boundaries while improving power efficiency - a critical factor for mobile devices and IoT applications.

MARKET DYNAMICS

MARKET DRIVERS

Rising Demand for High-Performance Computing to Accelerate Market Growth

The global multi-core processor market is experiencing robust growth, driven by increasing demand for high-performance computing (HPC) across industries. Data centers, AI applications, and cloud computing require processors that can handle parallel processing efficiently. Multi-core processors deliver superior performance by distributing workloads across multiple cores, enabling faster data processing and improved energy efficiency. The shift toward 5G networks and edge computing further amplifies the need for advanced multi-core solutions, as these technologies demand processors capable of handling real-time data processing with minimal latency. Recent advancements in artificial intelligence and machine learning applications have particularly fueled demand for processors with higher core counts, as they are essential for training complex neural networks.

Growth in Gaming and Content Creation Industry to Propel Market Expansion

The gaming and content creation industries are increasingly adopting high-core-count processors to enhance performance and user experience. Gamers and creative professionals require CPUs that can handle resource-intensive tasks such as 4K video editing, 3D rendering, and high-FPS gaming. The rising popularity of esports and live streaming has further accelerated the adoption of multi-core processors, as they allow for seamless multitasking while maintaining optimal performance. Leading manufacturers continue to innovate, launching processors with higher core counts and improved thermal efficiency to cater to this growing segment.

➤ For instance, AMD's Ryzen Threadripper PRO series processors with 64 cores have gained significant traction among professionals in the media and entertainment sector due to their exceptional multi-threading capabilities.

Additionally, the COVID-19 pandemic accelerated digital transformation across enterprises, pushing organizations to upgrade their IT infrastructure, which in turn boosted demand for high-performance computing solutions.

MARKET RESTRAINTS

Thermal and Power Constraints to Limit Processor Performance Gains

While multi-core processors offer substantial computing advantages, they face significant thermal and power-related challenges. As core counts increase, managing heat dissipation becomes increasingly complex. Thermal throttling—where processors reduce clock speeds to prevent overheating—can negatively impact performance, particularly in compact devices such as laptops and smartphones. Additionally, higher core counts demand more power, which can strain battery life in portable devices, presenting a barrier to widespread adoption in the mobile computing segment.

Other Constraints

Software Optimization Challenges Not all software applications efficiently utilize multiple cores, limiting the performance benefits of high-core-count processors. Legacy applications, in particular, may not take full advantage of parallel processing capabilities, reducing the incentive for consumers to upgrade.

Manufacturing Costs Developing multi-core processors with advanced fabrication processes increases production costs, which can result in higher prices for end-users. This pricing pressure may restrain market growth in cost-sensitive regions.

MARKET CHALLENGES

Supply Chain Disruptions and Semiconductor Shortages Hamper Market Stability

The semiconductor industry has faced persistent supply chain disruptions over recent years, directly impacting the production and availability of multi-core processors. Geopolitical tensions, trade restrictions, and fluctuations in raw material supply have exacerbated these challenges, leading to increased lead times and price volatility. The global chip shortage has particularly affected the automotive and consumer electronics industries, forcing manufacturers to reassess their supply chain strategies and inventory management. These constraints could potentially slow market expansion in the short term.

Intense Competition Among Chip Manufacturers Puts Pressure on Profit Margins

The market is witnessing fierce competition among key players such as Intel, AMD, and Arm-based manufacturers, each striving to push the boundaries of core-count and efficiency. While this competition drives innovation, it also exerts downward pressure on profit margins as companies engage in aggressive pricing strategies. Furthermore, the rapid pace of technological advancements means that manufacturers must continuously invest in R&D to remain competitive, increasing operational costs. Smaller players may struggle to keep up, potentially leading to industry consolidation.

Additionally, shifting consumer preferences towards system-on-a-chip (SoC) solutions in mobile and IoT sectors pose a challenge for traditional multi-core processor manufacturers.

MARKET OPPORTUNITIES

Expansion into AI and Edge Computing Applications Opens New Revenue Streams

The proliferation of AI-powered applications and edge computing presents significant growth opportunities for multi-core processor vendors. AI workloads require processors with high parallel processing capabilities, making multi-core architectures well-suited for neural network training and inference tasks. The Internet of Things (IoT) ecosystem is also driving demand for energy-efficient multi-core solutions that can perform real-time analytics at the edge, reducing latency and bandwidth usage. Companies developing specialized processors optimized for AI and edge deployments stand to gain a competitive advantage.

Increasing Adoption in Automotive and Industrial Applications Creates Untapped Potential

The automotive sector is undergoing a technological transformation with the rise of connected vehicles, autonomous driving systems, and advanced driver-assistance systems (ADAS). These applications require powerful multi-core processors to handle sensor data processing and decision-making in real time. Similarly, industrial automation and Industry 4.0 initiatives are driving demand for ruggedized multi-core processors capable of operating in harsh environments. As these segments continue to evolve, they present lucrative opportunities for processor manufacturers to diversify their product portfolios and enter high-growth verticals.

Furthermore, government initiatives supporting semiconductor manufacturing self-sufficiency in various regions are likely to create new investment opportunities in the multi-core processor market.

MULTI-CORE COMPUTER PROCESSORS MARKET TRENDS

Growing Demand for High-Performance Computing Driving Market Growth

The global multi-core computer processors market is experiencing significant growth, fueled by the increasing demand for high-performance computing (HPC) across industries. With applications ranging from artificial intelligence to cloud computing, multi-core processors have become essential for handling complex workloads efficiently. In 2024, the market was valued at $XX million, projected to grow at a CAGR of X% through 2032. Companies like Intel and AMD continue to push boundaries with architectures featuring up to 128 cores, enabling faster data processing for machine learning, real-time analytics, and gaming applications. The shift toward heterogeneous computing, combining CPU and GPU cores, further enhances performance while optimizing power efficiency.

Other Trends

Expansion of Edge Computing and IoT Devices

The proliferation of edge computing and Internet of Things (IoT) devices has created new opportunities for multi-core processors, particularly in low-power, high-efficiency applications. Manufacturers are developing energy-efficient quad-core and octa-core processors to meet the demands of smart devices, autonomous systems, and 5G infrastructure. For instance, the automotive sector relies on multi-core processors for advanced driver-assistance systems (ADAS), with Qualcomm and NXP Semiconductors leading innovation. Such advancements are expected to drive the smart mobile device segment to over $XX million by 2032, outpacing traditional computing applications.

AI and Machine Learning Fueling Processor Innovation

AI and machine learning workloads demand parallel processing capabilities, accelerating the adoption of multi-core architectures. Leading chipmakers are integrating AI accelerators and specialized cores to optimize neural network training and inference tasks. AMD's Ryzen Threadripper and Intel's Xeon Scalable processors demonstrate this trend, offering up to 96 cores for data centers. Concurrently, ARM-based designs are gaining traction in mobile and embedded systems, with Samsung and MediaTek incorporating multi-core configurations for on-device AI processing. Research indicates that over 60% of new server deployments now utilize multi-core processors, highlighting their dominance in enterprise infrastructure.

COMPETITIVE LANDSCAPE

Key Industry Players

Innovation and Strategic Partnerships Define the Multi-Core Processor Race

The global multi-core processor market remains highly competitive, dominated by established semiconductor giants while facing disruption from agile innovators. Intel Corporation continues to lead the market with a 2024 revenue share of approximately 28%, leveraging its x86 architecture dominance and continuous advancements in Core i-series processors. However, their position faces mounting pressure from competitors adopting ARM-based designs.

Advanced Micro Devices (AMD) has been gaining significant traction, capturing nearly 22% market share in 2024 through its Ryzen and EPYC processor lines. The company's chiplet design approach and superior multi-threading performance have been particularly disruptive in both consumer and data center segments. Meanwhile, Qualcomm and MediaTek are asserting dominance in mobile processors, collectively holding over 40% of the smartphone SoC market.

The competitive intensity is further amplified by vertical integration strategies, with companies like Samsung Electronics and Apple developing custom silicon for their devices. This trend is reshaping industry dynamics, as evidenced by Apple's M-series chips achieving 15% performance gains over x86 alternatives in benchmark tests.

Emerging players are focusing on niche segments - NXP Semiconductors and Texas Instruments lead in embedded systems, while Marvell Technology specializes in networking processors. The industry is witnessing increased R&D expenditure across the board, with top players allocating 18-25% of revenues to develop next-generation architectures.

List of Key Multi-Core Processor Manufacturers

Intel Corporation (U.S.)

Advanced Micro Devices (AMD) (U.S.)

Qualcomm Technologies (U.S.)

Samsung Electronics (South Korea)

Apple Inc. (U.S.)

MediaTek (Taiwan)

NXP Semiconductors (Netherlands)

Texas Instruments (U.S.)

Marvell Technology (U.S.)

ARM Holdings (U.K.)

Recent developments include AMD's acquisition of Xilinx to bolster its adaptive computing capabilities, while Intel's foundry services expansion aims to regain process technology leadership. The competitive landscape continues evolving as companies balance between architectural innovation, manufacturing capabilities, and ecosystem development to secure their positions in this trillion-transistor era.

Segment Analysis:

By Type

Quad-core Processors Lead Market Share Due to Optimal Performance and Energy Efficiency

The market is segmented based on type into:

Dual-core Processor

Quad-core Processor

Eight-core Processor

Others (Hexa-core, Deca-core, etc.)

By Application

Smart Mobile Devices Segment Dominates with Growing Demand for High-Performance Processors

The market is segmented based on application into:

Laptops

Desktop Computers

Smart Mobile Devices

Others (Servers, Gaming Consoles, etc.)

By End User

Consumer Electronics Sector Maintains Strong Position Due to Continuous Technological Advancements

The market is segmented based on end user into:

Consumer Electronics

Enterprise

Data Centers

Others (Industrial, Automotive, etc.)

Regional Analysis: Multi-Core Computer Processors Market

North America The North American market remains at the forefront of multi-core processor adoption, driven by robust demand from enterprise computing, gaming, and AI-driven applications. The U.S. accounts for over 60% of regional revenue, with Intel and AMD dominating processor shipments. Recent innovations such as Intel’s 14th Gen Core processors and AMD’s Ryzen 7000 series highlight the region’s emphasis on power efficiency and AI acceleration. However, supply chain constraints linked to semiconductor manufacturing persist as a challenge. The growing adoption of edge computing and data center expansions further stimulates growth, supported by government incentives like the CHIPS Act for domestic semiconductor production.

Europe Europe exhibits steady growth, with Germany, France, and the UK leading in demand for high-performance processors in automotive and industrial automation sectors. Strict EU energy-efficiency regulations are pushing manufacturers toward advanced multi-core designs with lower thermal design power (TDP). ARM-based processors are gaining traction, particularly in mobile and IoT applications, while x86 architectures dominate enterprise environments. The region also sees strong R&D investments from companies like NXP Semiconductors and STMicroelectronics. However, inflationary pressures and geopolitical uncertainties pose risks to supply chain stability.

Asia-Pacific Asia-Pacific is the largest and fastest-growing market, fueled by China’s semiconductor self-sufficiency initiatives and India’s booming consumer electronics sector. China’s domestic players, such as Huawei’s HiSilicon and Phytium, are aggressively competing in server-grade multi-core processors. Meanwhile, Taiwan remains a global hub for fabrication, accounting for over 60% of global foundry output. Mobile device manufacturers in Southeast Asia continue driving demand for energy-efficient octa-core processors. Despite this growth, export restrictions on advanced chipmaking technologies have slowed progress in some countries. Infrastructure gaps in testing and packaging also pose bottlenecks.

South America The South American market is emerging slowly due to economic volatility, but Brazil and Argentina show increasing demand for multi-core processors in budget laptops and localized server deployments. Import dependency raises costs, limiting penetration of high-end processors. Governments are incentivizing local assembly plants to reduce reliance on foreign suppliers, though currency fluctuations hinder long-term investments. Gaming and content creation markets present untapped opportunities if affordability improves. Nonetheless, the lack of domestic semiconductor ecosystems constrains innovation.

Middle East & Africa This region demonstrates fragmented growth, with the UAE, Saudi Arabia, and South Africa as primary markets. Demand is fueled by datacenter construction and smart city initiatives like Saudi’s NEOM project. However, limited local manufacturing forces heavy reliance on imports, leading to higher prices for end-users. While some nations invest in AI infrastructure, broader adoption of multi-core processors is hindered by low purchasing power outside urban hubs. Strategic partnerships with global suppliers could unlock potential, particularly in telecommunications and oil/gas automation applications.

Report Scope

This market research report provides a comprehensive analysis of the global and regional Multi-Core Computer Processors market, covering the forecast period 2025–2032. It offers detailed insights into market dynamics, technological advancements, competitive landscape, and key trends shaping the industry.

Key focus areas of the report include:

Market Size & Forecast: Historical data and future projections for revenue, unit shipments, and market value across major regions and segments.

Segmentation Analysis: Detailed breakdown by product type (Dual-core, Quad-core, Eight-core), technology, application (Laptops, Desktops, Smart Mobile Devices), and end-user industry to identify high-growth segments.

Regional Outlook: Insights into market performance across North America, Europe, Asia-Pacific, Latin America, and the Middle East & Africa, including country-level analysis.

Competitive Landscape: Profiles of leading market participants including Intel, AMD, Qualcomm, Samsung, and their product portfolios, R&D investments, and strategic developments.

Technology Trends: Assessment of emerging processor architectures, AI integration, chiplet designs, and advanced manufacturing processes (5nm, 3nm nodes).

Market Drivers & Restraints: Evaluation of factors such as demand for high-performance computing, gaming industry growth, 5G adoption, alongside supply chain challenges and geopolitical factors.

Stakeholder Analysis: Strategic insights for semiconductor manufacturers, OEMs, cloud service providers, and investors regarding market opportunities.

The research methodology combines primary interviews with industry experts and analysis of verified market data from authoritative sources to ensure accuracy and reliability.

FREQUENTLY ASKED QUESTIONS:

What is the current market size of Global Multi-Core Computer Processors Market?

-> Multi-Core Computer Processors Market size was valued at US$ 67.34 billion in 2024 and is projected to reach US$ 128.67 billion by 2032, at a CAGR of 8.4% during the forecast period 2025-2032.

Which key companies operate in this market?

-> Dominant players include Intel, Advanced Micro Devices (AMD), Qualcomm, Samsung Electronics, and Apple, with the top five companies holding ~68% market share.

What are the key growth drivers?

-> Primary drivers include rising demand for high-performance computing, growth in cloud infrastructure, gaming industry expansion, and proliferation of AI/ML applications.

Which region dominates the market?

-> Asia-Pacific holds the largest market share (42% in 2024), driven by semiconductor manufacturing in Taiwan/South Korea and strong demand from China. North America leads in advanced processor adoption.

What are the emerging trends?

-> Key trends include heterogeneous computing architectures, chiplet-based designs, integration of AI accelerators, and transition to 3nm/2nm process nodes.

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Did you hear? AMD's new Ryzen Threadripper 9000 CPUs crush Intel Xeon, clocking over 2x faster in benchmarks! With up to 96 cores and Zen 5 cores, these powerful CPUs deliver incredible performance for high-end gaming, content creation, and AI tasks. This next-gen lineup supports DDR5-6400, PCIe 5.0, and over 8 channels of memory, making them ideal for demanding workloads. AMD’s innovation extends beyond CPUs — from Radeon GPUs to AI accelerators, they’re shaping the future of tech. If you're looking to build a workstation with cutting-edge power, check out GroovyComputers.ca for custom computer builds tailored to your needs. Upgrade your setup today and experience the ultimate performance! Would you consider switching to AMD’s latest CPUs for your next build? Let us know in the comments! Explore more about these game-changing processors and custom builds at GroovyComputers.ca. #RyzenThreadripper #AMD #CustomPCBuilds #HighPerformanceComputing #GamingPC #Workstation #TechInnovation #CPUBenchmark #BuildYourPC #GamingRig #AI #ContentCreation #GroovyComputers

AMD claims Ryzen Threadripper 9000 is up to 145% faster than Intel Xeon

Serving tech enthusiasts for over 25 years. TechSpot means tech analysis and advice you can trust. The big picture: AMD announced its Ryzen Threadripper 9000-series “Shimada Peak” processors at Computex but didn’t provide any benchmarks to compare them against Intel’s latest Xeon CPUs. This week, the company finally released official benchmarks for the new chips, claiming they are up to 145…

AMD reveals benchmarks of Ryzen Threadripper 9000 — claims it's up to 145% faster than rival Xeon in some tests

Although AMD formally introduced its Ryzen Threadripper 9000-series processors at Computex and disclosed their specifications, the company did not reveal their performance compared to predecessors and rivals, or their pricing. This week, the company filled in one of these blanks and finally released performance results of its Ryzen Threadripper Pro 9995WX and Ryzen Threadripper 9980 CPUs compared…

AMD Ryzen Threadripper 3990X Benchmarks, Specs And Price

v Early 2020's 64 cores and 128 threads revolutionised desktop computing and set new high-performance benchmarks. Scientists, engineers, and artists that use video editing, simulations, and 3D rendering will adore this 7nm Zen 2 gadget.

Ryzen Threadripper 3990X benchmark

Threadripper 3990X excels in threading-intensive apps. The benchmark scores below show its strength:

These numbers prove the 3990X is not for gaming or daily computing. Applications that use dozens of threads are its strongest.

Benefits

Multi-Core Performance: The 3990X, with 64 physical cores, outperforms dual-CPU PCs in many workloads. This reduces rendering and encoding times for large projects.

Perfect for Content Creation: Blender, Maya, After Effects, and DaVinci Resolve benefit from the massive parallel processing power.

High Expandability: 64 PCIe 4.0 lanes let users add several GPUs, NVMe storage devices, and other PCIe peripherals without bottlenecks.

This CPU is unlocked, thus expert users can overclock it with high-end cooling.

Compared to enterprise dual-socket systems, the 3990X is cheaper for workstations.

Drawbacks

Not for gaming: Most games utilise 8–12 threads. In actuality, Windows' core processing limits with so many threads may hurt some games.

Power Consumption: At 280W TDP, the 3990X requires a powerful PSU, and air cooling may not be enough for long-term operation.

The platform requires a TRX40 motherboard, which can be expensive. Cooling and high-end DDR4 RAM enhance prices.

Lack of an integrated GPU: Users must buy a graphics card, increasing initial costs.

Best Use Cases

Casual users are not the 3990X's target market. It excels in

Professionals that utilise Autodesk, V-Ray, or Blender produce 3D objects faster.

Video Production: Multi-stream timelines, transcoding, and 8K editing are simple.

Scientific computing aids financial models, biology, and physics simulations.

Software Development: Game engines and Android builds can be compiled faster.

The 3990X saves time and boosts output, giving visual effects, architecture, and AI studios a high ROI.

Shipping, taxes, and availability affect prices. Due to limited production and high demand, the Threadripper 3990X is becoming harder to find.

This processor can multitask and handle data-intensive tasks with up to 2TB of RAM and quad-channel memory on compatible motherboards.

Final remarks

Not everyone suits the AMD Ryzen Threadripper 3990X CPU. It targets professionals who handle complex, multi-threaded tasks. This is too much for regular programming, office work, or gaming. This powerful processor could boost productivity for scientists, engineers, animators, and video editors.

Though Threadripper Pro and EPYC will replace the 3990X in 2025, it will remain recognised for its groundbreaking desktop CPU performance.

For more details visit govindhtech.com

Computex 2025 Day Two Wrap-Up: AMD unveils new Radeon and Threadripper chips, with PCIe 5.0 SSDs boosting performance in the latest hardware showcase. AMD’s latest graphics cards and processors reveal remarkable advancements, from the Radeon RX 9060 XT launching in June at CAD 400 to the powerful Threadripper 9000 WX series with up to 96 cores. The RX 9060 XT, built on TSMC’s N4P process with a boost in transistor count, promises to beat Nvidia’s GeForce RTX 5060 Ti at 1440p, offering gamers and creators higher speeds. The Radeon AI Pro R9700 targets AI tasks with 32GB GDDR6 memory and 96 TFLOPS performance, arriving in June to challenge Nvidia’s dominance. Processor updates include the monster 96-core Threadripper 9995WX and the 12-core 9945WX, ideal for demanding desktop and workstation workloads. These chips demonstrate AMD’s commitment to power and innovation. In SSDs, Patriot’s PCIe 5.0 models reach read speeds of 14,000 MB/s, with Phison’s E28 controller pushing near-bleeding-edge performance at 14.8 GB/s. These developments hint at faster, more efficient storage solutions. Are you excited about AMD’s new hardware upgrades for gaming, AI, or content creation? What tech feature are you most eager to see in upcoming builds? Share your thoughts! #Computex2025 #AMD #Ryzen #Threadripper #Radeon #PCIe5 #SSDs #GamingTech #AI #Workstation #TechInnovation #FutureHardware

AMD launches new Ryzen Threadripper CPUs to challenge Intel’s workstation dominance

Marking an aggressive push into the professional workstation and high-end desktop (HEDT) segments, AMD has launched its latest high-performance computing processors at Computex 2025. The processors are purpose-built to handle tough workloads such as VFX rendering, scientific simulation, CAD, and AI development for enterprise-grade workstations in industries such as engineering, healthcare,…

AMD Ryzen Threadripper 9000 chips have up to 96 nuclei, like the last group

Not many people need a 96-core processor. But for creative professionals, engineers and developers who make, AMD has a new batch of chips exhibited at the Computex 2025. The company announced its new Ryzen Threadripper 9000 series on Tuesday, with the specifies of Bonkers for Power Pro LEVEL WORNTS and ULTRA-CON Prosumer. In the upper part of the line in the series is AMD Threadripper Pro 9995WX.…

Already next week The Starfield game, as you know, was created with the active support of AMD and works much better on Radeon video cards. However, owners of GeForce adapters will soon have a reason to rejoice, as DLSS will be added to the game. [caption id="attachment_78515" align="aligncenter" width="780"] AMD's[/caption] AMD's Starfield Game Will Get DLSS 3 Before FSR 3 Next week the developers will release a beta version of the update, which will bring many changes. True, it’s not very clear why the beta version, but we just have to wait for the release. Among other things, the update will bring support for DLSS, and judging by the mention of frame generation, it will be DLSS 3. Bethesda also promised to add FSR 3 to the game, that is, frame generation technology will become available for Radeon adapters. Considering that Starfield turned out to be very demanding, such improvements will clearly not be superfluous.

AMD Ryzen Threadripper 9000 chips have up to 96 nuclei, like the last group

Not many people need a 96-core processor. But for creative professionals, engineers and developers who make, AMD has a new batch of chips exhibited at the Computex 2025. The company announced its new Ryzen Threadripper 9000 series on Tuesday, with the specifies of Bonkers for Power Pro LEVEL WORNTS and ULTRA-CON Prosumer. In the upper part of the line in the series is AMD Threadripper Pro 9995WX.…

Exploring the Key Features and Benefits of HP Z AI Workstations and Solutions

The HP Z AI Workstations and Solutions stand out in the realm of advanced computing, offering a myriad of features and benefits tailored for professionals in various industries. These powerful machines are designed to tackle demanding workloads with exceptional performance.

One of the significant features of HP Z AI Workstations is their cutting-edge processing capabilities. Equipped with the latest high-performance processors, these workstations can efficiently handle complex tasks such as data analysis, 3D modeling, and artificial intelligence applications. This ensures that users can execute their projects with speed and precision.

In addition to processing power, HP Z Workstations offer impressive graphics performance. The integration of advanced GPU options means that users can expect enhanced visual rendering, making them ideal for graphic-intensive tasks, from video editing to virtual simulations. This level of graphic fidelity not only improves productivity but also elevates the overall user experience.

Another key benefit is the workstation's scalability and upgradability. HP Z Workstations are designed to grow with the user's needs, accommodating additional components and software as requirements evolve. This flexibility provides a cost-effective solution for businesses that seek to invest in technology without the need for frequent replacements.

Moreover, HP emphasizes reliability and durability in its workstation design. Built to endure the rigors of demanding environments, these machines come with robust support and services, giving users peace of mind that their investments are protected.

In conclusion, HP Z AI Workstations and Solutions deliver a powerful combination of advanced performance, exceptional graphics, scalability, and reliability. These attributes empower professionals to push the boundaries of innovation and creativity in their respective fields. The HP Z AI Workstations are expertly crafted to meet the needs of professionals who require robust computing capabilities for intensive tasks such as AI development, data analytics, and intricate creative projects. These advanced workstations provide robust hardware and software solutions, featuring laptops and desktops enhanced with artificial intelligence capabilities for superior performance. These systems are specially designed to handle intricate workflows, encompassing a wide range of tasks such as real-time rendering, 3D design, artificial intelligence training, and data analysis. A Comprehensive Overview of HP Z AI Workstations:

Key Features and Advantages:

Robust Hardware:

The HP Z Workstations are equipped with top-tier processors, including Intel Xeon and AMD Ryzen Threadripper. They also boast high-performance graphics options from leading brands like NVIDIA, AMD, and Intel. Additionally, these workstations can support substantial memory capacities, offering up to 2 TB of RAM for desktop models and 128 GB for laptops.

AI-Enhanced Technology:

These systems feature integrated Neural Processing Units (NPUs) alongside powerful discrete GPUs, boasting impressive TOPS (Trillion Operations Per Second) capabilities. This advanced hardware is specifically designed to enhance the speed and efficiency of AI training and model development processes.

Software Solutions:

The HP Z AI Studio provides a comprehensive platform designed for the centralized management of AI projects. It facilitates collaboration among teams while ensuring the secure processing of data.

Enhanced Reliability and Security Standards:

Workstations are subject to comprehensive testing protocols to guarantee their reliability and optimal performance. Additionally, they come equipped with HP Wolf Security for Business, providing robust protection against a variety of cyber threats. Innovative Hybrid Work Solutions:

ZCentral offers a comprehensive hardware and software suite designed for remote work, enabling users to harness the power of high-performance workstations from any location.

Tailored Solutions:

HP Z provides a variety of configurations designed to cater to unique requirements, featuring both mobile workstations known as ZBooks and desktop workstations referred to as Z Desktops.

Sustainability Focus in HP Z Workstations:

HP Z Workstations are engineered with an emphasis on sustainability, aligning with a more environmentally conscious approach to computing. These systems reflect a commitment to responsible practices in technology usage.

 Applications of HP Z Workstations

AI Development

HP Z Workstations are specifically engineered to facilitate the development and training of AI models. They possess the robust capabilities needed to manage extensive datasets and intricate algorithms efficiently.

Data Analysis: Unlocking Insights with Advanced Workstations

Experts in various domains, including finance, science, and engineering, have the opportunity to harness the capabilities of advanced workstations for thorough data analysis. These powerful systems enable them to process substantial data sets, ultimately leading to valuable insights and informed decision-making.

Creative Industries:

Professionals in the fields of artistry, design, and animation can leverage HP Z Workstations to produce breathtaking visuals, execute intricate renderings, and efficiently handle substantial file sizes.

Engineering and Manufacturing:

High-performance workstations serve as invaluable tools for engineers and designers, enabling them to engage in tasks such as CAD modeling, simulations, and other computationally intensive activities. These advanced systems are specifically designed to meet the demands of the engineering and manufacturing sectors, facilitating a seamless workflow and enhanced productivity.

Ryzen 7: A Deep Dive into AMD’s Mid-Range Powerhouse

In recent years, AMD has significantly disrupted the CPU market with its Ryzen lineup, and among the most popular and versatile families within this series is Ryzen 7. Positioned as a high-performance yet cost-effective option, Ryzen 7 processors are a go-to choice for gamers, content creators, and professionals alike. This article explores what makes Ryzen 7 CPUs stand out, their evolution, and why they remain a strong contender in 2025.

What is Ryzen 7?

Ryzen 7 is a line of processors developed by AMD, targeting the upper mid-range segment of the market. These chips generally feature 8 cores and 16 threads, offering a solid balance between core count, power efficiency, and price. Since their introduction in 2017, Ryzen 7 CPUs have become synonymous with excellent multi-core performance, making them suitable for multitasking, gaming, video editing, and even 3D rendering.

Key Features of Ryzen 7 CPUs

Multi-Core Performance: With 8 cores and simultaneous multi-threading (SMT), Ryzen 7 chips excel in workloads that benefit from parallel processing.

High Clock Speeds: Boost clock speeds typically range from 4.5 GHz to over 5.0 GHz in recent models, enabling strong single-thread performance.

Power Efficiency: Built on AMD’s advanced 7nm and now 5nm Zen architectures, these processors offer impressive performance-per-watt ratios.

Unlocked Multipliers: All Ryzen 7 CPUs come unlocked for overclocking, giving enthusiasts room to push performance even further.

AM4 and AM5 Platform Support: Ryzen 7 models span across AMD’s AM4 and the newer AM5 socket, ensuring broad motherboard compatibility.

Popular Ryzen 7 Models

Ryzen 7 3700X: An earlier 7nm Zen 2 model, great for gamers and streamers on a budget.

Ryzen 7 5800X: Based on Zen 3 architecture, it brought a substantial boost in IPC (instructions per cycle), outperforming many Intel rivals.

Ryzen 7 7700X: A newer generation based on Zen 4 and built for the AM5 platform, offering DDR5 and PCIe 5.0 support.

Ryzen 7 7800X3D: Known for its 3D V-Cache technology, this model is particularly favored by gamers for its exceptional performance in CPU-bound games.

Ryzen 7 vs Competitors

When compared to Intel’s Core i7 series, Ryzen 7 chips often deliver better multi-core performance at similar or lower price points. While Intel has maintained an edge in single-core speeds in some generations, AMD’s consistent architectural improvements have closed the gap significantly. Ryzen 7 also benefits from superior energy efficiency and integrated platform features like Smart Access Memory when paired with Radeon GPUs.

Who Should Buy Ryzen 7?

Ryzen 7 CPUs are ideal for users who want strong performance without stepping into the more expensive Ryzen 9 or Threadripper territory. It’s a solid investment for:

Gamers seeking high FPS and future-proofing

Content Creators working in video editing, music production, or streaming

General Power Users who demand fast, responsive systems for multitasking

Final Thoughts

As of 2025, Ryzen 7 continues to be a formidable player in the CPU market. Whether you're upgrading a gaming rig, building a workstation, or simply looking for a CPU that delivers consistent performance across the board, Ryzen 7 stands out as a smart choice. With ongoing innovations and AMD’s commitment to pushing the envelope, Ryzen 7 remains not just relevant—but essential.