Moore Threads
Moore Threads Technology Co., Ltd. is a Chinese fabless semiconductor company that designs graphics processing units (GPUs) for accelerated computing in artificial intelligence, visual rendering, and high-performance applications.[1][2] Founded in October 2020 and headquartered in Beijing, the firm develops full-featured GPUs based on its proprietary MUSA architecture to support domestic computing needs.[1][3] The company was established by Zhang Jianzhong, a former Nvidia vice president and general manager for its China operations, with the goal of building a competitive GPU platform amid U.S. restrictions on advanced chip exports.[4][5] Key products include the MTT S80 and MTT S90 GPUs, which feature up to 16 GB of GDDR6 memory and have achieved notable performance gains through driver updates, enabling capabilities such as running demanding games like Black Myth: Wukong and efficient AI model inference.[6][7][8] In October 2023, Moore Threads was placed on the U.S. Entity List over alleged ties to military end-uses, resulting in manufacturing constraints, workforce reductions, and reliance on alternative foundries.[9][10] Despite these setbacks, it has completed multiple GPU tape-outs, secured further funding, and advanced toward an initial public offering by 2025, underscoring efforts to foster technological independence in China's semiconductor sector.[11][6][12]History
Founding and Initial Goals
Moore Threads Technology Co., Ltd. was founded in October 2020 in Beijing, China, by Zhang Jianzhong, a semiconductor engineer with 14 years of experience at Nvidia, where he served as global vice president and general manager of its China division.[1][13][4] The establishment leveraged Zhang's expertise in GPU development and parallel computing, assembling an initial team of engineers with similar backgrounds to replicate advanced design principles domestically.[14] The company's initial objectives centered on developing full-featured GPUs as its core technology, with a mission to deliver advanced infrastructure and comprehensive solutions for accelerated computing applications worldwide.[1] This included targeting high-performance needs in artificial intelligence, graphics rendering, and general-purpose computing, aiming to build a unified platform akin to established industry standards.[15] Zhang articulated a long-term vision of positioning Moore Threads as an internationally competitive GPU innovator, emphasizing sustained investment in research and ecosystem development to drive future computing advancements.[16] These goals reflected a strategic focus on creating indigenous alternatives to foreign-dominated GPU markets, informed by China's broader semiconductor self-reliance initiatives amid escalating U.S. export controls on advanced technologies, though the company prioritized technical innovation over explicit geopolitical framing in its early statements.[6] Early efforts involved designing proprietary architectures compatible with mainstream software stacks, setting the foundation for products in gaming, AI training, and data center applications.[17]Early Milestones and Product Launches
Moore Threads demonstrated swift advancement after its October 2020 founding, revealing its inaugural products on March 30, 2022—just 18 months later—with the MTT S60 graphics card targeted at desktop PCs and workstations, and the MTT S2000 designed for server applications.[18][19] These represented China's earliest fully domestic GPUs featuring DirectX compatibility and the ability to render eSports games like League of Legends at 1080p resolution, addressing prior limitations in local graphics processing capabilities.[20][21] The MTT S series utilized Moore Threads' initial MUSA unified compute architecture, emphasizing integrated graphics, AI, and general-purpose computing functions.[1] Initial demonstrations highlighted modest specifications, including hardware support for 8K AV1 decoding on the MTT S60, though real-world performance benchmarks indicated entry-level positioning relative to established international competitors.[22] Subsequent to the S60 and S2000 unveilings, Moore Threads introduced the MTT S80 in November 2022 as its dedicated gaming-oriented product, claiming distinction as China's first such graphics card and the global pioneer in adopting a PCIe 5.0 x16 interface for consumer GPUs, with bidirectional bandwidth reaching 128 GB/s.[1][23] The MTT S80, powered by the Chunxiao GPU die under the MUSA framework, delivered peak FP32 compute at 14.4 TFLOPS and entered limited production shortly after announcement, targeting ultra-HD gaming workloads.[16][24] These launches underscored the company's focus on self-reliant semiconductor design amid geopolitical pressures on foreign chip imports.[19]U.S. Sanctions and Operational Adjustments
In October 2023, the United States Department of Commerce's Bureau of Industry and Security (BIS) added Moore Thread Intelligent Technology (Beijing) Co., Ltd.—operating as Moore Threads—to its Entity List under Supplement No. 4 to Part 744 of the Export Administration Regulations. This designation, effective October 17, 2023, imposes a license requirement for all items subject to the Export Administration Regulations (EAR), including U.S.-origin technology, software, and components, with a policy of presumptive denial due to the entity's alleged support for military end-uses and end-users in the People's Republic of China. The addition targeted Moore Threads' involvement in activities contrary to U.S. national security and foreign policy interests, amid broader restrictions on advanced computing and semiconductor manufacturing equipment exports to China. The sanctions significantly constrained Moore Threads' access to foreign technology, exacerbating challenges in GPU design and supply chain dependencies on U.S.-controlled intellectual property and tools.[9] In direct response, the company initiated operational adjustments, including substantial staff reductions and organizational restructuring announced in early November 2023.[10] CEO Zhang Jianwei detailed these measures in an internal letter to employees, explicitly attributing the layoffs—estimated to affect a significant portion of the workforce—to the sanctions' disruptive effects on business operations and resource allocation.[9] The restructuring aimed to streamline operations, reduce costs, and refocus on core R&D amid restricted access to advanced foreign chips and manufacturing equipment.[10] Despite these setbacks, Moore Threads secured approximately 2 billion yuan (about $280 million USD) in new financing from investors including state-backed funds in mid-November 2023, signaling continued domestic support for its development.[11] The company persisted with product releases, unveiling the MTT S4000 server GPU and related graphics cards in December 2023, while emphasizing self-reliance through enhanced domestic supply chains and software ecosystems.[25] By mid-2024, Moore Threads upgraded its AI data center solutions, such as the MUSA architecture adaptations, to mitigate reliance on restricted U.S. technologies and accelerate substitution with indigenous alternatives.[26] In filings for a potential IPO valued at up to 8 billion yuan in 2025, the company acknowledged U.S. export controls as a persistent risk but highlighted them as a catalyst for accelerated localization of GPU production and innovation.[27]Technology and Architecture
Core GPU Design Principles
Moore Threads' GPUs employ the proprietary MUSA (Moore Threads Unified System Architecture), a metacomputing framework that integrates graphics processing, general-purpose computing, and AI acceleration within a single cohesive system to streamline development and deployment across diverse workloads.[28] This unified design principle aims to minimize software ecosystem fragmentation by offering consistent runtime libraries, drivers, and programming models, thereby reducing duplication in codebases for applications ranging from 3D rendering to machine learning inference.[29] Unlike architectures requiring separate optimizations for graphics versus compute tasks, MUSA prioritizes hardware-software synergy to enable seamless workload portability, with tools like the MUSIFY toolkit facilitating CUDA code migration.[30] At the core level, MUSA leverages massively parallel stream processors—termed MUSA cores—organized into scalable arrays to exploit data-level parallelism inherent in GPU workloads. Early implementations, such as the Sudi chip in the MTT S60, incorporate 2048 such cores fabricated on a 12 nm process, supporting features like DirectX 12 Ultimate and Vulkan for graphics alongside tensor operations for AI.[31] Subsequent generations, including the Chunxiao chip, scale to 4096 MUSA cores clocked at 1.8–1.9 GHz, augmented by dedicated tensor cores (e.g., 128 units) for matrix multiply-accumulate operations critical to deep learning.[32] This core design adheres to single-instruction, multiple-thread (SIMT) execution paradigms, akin to industry standards, but emphasizes native support for low-precision formats like FP8 in later iterations to boost efficiency in inference tasks without sacrificing graphics fidelity.[33] A foundational tenet is the prioritization of graphics as the bedrock of computing capabilities, positing that robust rasterization, texturing, and shading pipelines underpin higher-level compute functions, such as physics simulations or ray tracing extensions.[34] Hardware integration reflects this through unified shader units handling both vertex/geometry processing and fragment operations, coupled with high-bandwidth memory interfaces (e.g., GDDR6 at up to 768 GB/s in server variants) to mitigate bottlenecks in memory-intensive parallel algorithms.[35] The architecture's multi-functional ethos extends to embedded ray-tracing hardware and scalable tensor processing, enabling products like the MTT S4000 to deliver 25 TFLOPS FP32 performance while maintaining compatibility with PCIe Gen5 for enterprise scalability.[35] This approach, developed under constraints of domestic supply chains, underscores resilience through vertical integration of compute primitives, though real-world efficacy remains constrained by software maturity relative to established competitors.[16]MUSA Compute Architecture
The MUSA architecture is a proprietary unified metacomputing system developed by Moore Threads for its graphics processing units, encompassing hardware cores, a programming model, runtime libraries, drivers, and APIs optimized for parallel computing tasks including graphics rendering, AI inference, multimedia processing, and high-performance computing.[28] Launched in March 2022, it supports standards such as DirectX 12 Ultimate, Vulkan, OpenGL, and Direct3D, enabling compatibility with diverse workloads on TSMC-fabricated chips starting at 12 nm process nodes.[1][36][31] First-generation MUSA implementations, as in the Sudi chip debuted in June 2022, integrate dedicated engines for graphics, video codecs, physics simulation, and AI acceleration within multi-function GPU designs.[29] Products like the MTT S60 feature 2048 MUSA stream processing cores, delivering 6 TFLOPS of FP32 performance and a 192 Gpix/s fill rate, paired with 8 GB LPDDR4X memory.[37] Subsequent variants, such as the MTT S30, scale down to 1024 MUSA cores at 1.3 GHz clock speeds with 4 GB memory and 40 W TDP for entry-level applications.[38] Second-generation MUSA enhances core counts and efficiency, as seen in the MTT X300 professional GPU with 4096 MUSA cores yielding 14.4 TFLOPS FP32 throughput and 16 GB GDDR6 memory.[39] The ChunXiao chip variant in the MTT S80 employs 4096 MUSA stream processors on a 7 nm TSMC node for server-oriented compute.[40] Third-generation MUSA, powering data center solutions like the MTT S4000 released in 2024, incorporates 128 tensor cores for matrix operations in AI workloads, alongside 48 GB GDDR6 VRAM and 768 GB/s bandwidth to support scalable clusters via MTLink interconnects.[41][42] This evolution reflects Moore Threads' focus on heterogeneous computing ecosystems, though independent benchmarks indicate performance lags behind established competitors like NVIDIA in raw throughput and software maturity.[43]Manufacturing and Supply Chain
Moore Threads initially fabricated its second-generation Chunxiao GPU, powering the MTT S80 graphics card launched in Q4 2022, using TSMC's N7 FinFET HKMG CMOS process node.[44] This 7nm technology enabled higher transistor density compared to the first-generation Sudi GPU, which reportedly used a 12nm node.[16] Following its addition to the U.S. Entity List on October 7, 2023, which restricted access to advanced foreign semiconductor manufacturing equipment and services, Moore Threads transitioned toward domestic production at Semiconductor Manufacturing International Corporation (SMIC).[45] SMIC's capabilities, including 12nm and 7nm-class processes, support fabrication of Moore Threads' GPUs such as the Sudi, Quyuan, and subsequent iterations like the MTT S4000 data center card with up to 25 TFLOPS FP32 performance.[16][46] This shift aligns with China's broader industrial policy to reduce reliance on foreign foundries amid U.S. export controls.[47] The company's supply chain emphasizes localization, with planned IPO proceeds targeted at bolstering upstream wafer fabrication, packaging, and testing within China.[48] However, dependencies persist on imported components like GDDR6 memory for products such as the MTT S3000 (32GB) and S4000 (48GB), though alliances among Chinese AI firms and chipmakers aim to develop fully domestic alternatives.[49] Moore Threads' efforts reflect systemic challenges in scaling advanced GPU production without Western technology, as SMIC's yields and node maturity lag behind global leaders.[50]Products
Consumer and Gaming GPUs
Moore Threads has developed a series of consumer-oriented GPUs under the MTT S lineup, primarily targeting the domestic Chinese market amid U.S. export restrictions on advanced semiconductors. These products leverage the company's MUSA architecture and are manufactured on SMIC's 12nm process node, emphasizing compatibility with DirectX, Vulkan, and OpenGL for gaming and graphics workloads. Initial releases faced challenges with driver stability and optimization, leading to inconsistent performance, but subsequent updates have yielded measurable gains, such as a claimed 120% uplift in gaming frame rates across the S-series by early 2025.[8][51] The MTT S60, announced on March 31, 2022, marked Moore Threads' entry into consumer GPUs, featuring 2048 shading units, a peak of 6 TFLOPs FP32 performance, and support for 1080p gaming. Priced affordably for entry-level desktops, it drew comparisons to older NVIDIA GeForce GTX 1070 capabilities in theoretical specs, but real-world benchmarks revealed limitations in modern titles due to immature software support.[52] Subsequent models improved on memory and interface. The MTT S80, launched in late 2022 and available in China by October 2023 for approximately 1,199 CNY (about $164 USD), includes 4096 cores, 16 GB GDDR6 memory at 14 Gbps, PCIe 5.0 x16 connectivity, and 14.2 TFLOPs FP32 compute. Early independent tests positioned it roughly equivalent to a GTX 1060 in Vulkan/DX9 scenarios, with high idle power draw exceeding 110W and frame time inconsistencies in DX11/12 games like CS:GO. Driver optimizations by mid-2024 doubled scores in 3DMark Fire Strike (reaching 8,617 points) and boosted playable frame rates in titles like Diablo III, though it still trailed entry-level competitors like the GTX 1050 Ti in aggregate benchmarks.[53][51][54] In August 2024, Moore Threads released the MTT S50, a low-profile, single-slot card with 2048 cores, 8 GB GDDR6, and a focus on 1080p esports gaming under Linux or lightweight Windows titles like CS:GO and Dota 2. Designed for compact systems, it prioritizes efficiency over high-end rasterization, achieving viable performance in older or optimized games but underperforming in demanding AAA workloads.[55][56] Higher-end efforts include the MTT S90, teased in mid-2025 with claims of surpassing NVIDIA's GeForce RTX 4060 in select gaming benchmarks, such as nearing 5,210 points in 3DMark Fire Strike Ultra. These assertions stem from company-provided data, which independent verification has yet to fully substantiate, highlighting ongoing reliance on domestic testing amid limited global availability and software ecosystem gaps. Overall, while Moore Threads' consumer GPUs advance China's self-reliance in graphics hardware, they remain entry-to-midrange performers, constrained by process node limitations and the need for continued driver refinement to close gaps with established vendors.[57]| Model | Release Date | Cores | Memory | Key Performance Notes |
|---|---|---|---|---|
| MTT S60 | March 31, 2022 | 2048 | Not specified (early reports) | ~6 TFLOPs; entry-level 1080p potential but driver-limited |
| MTT S80 | Late 2022 (available Oct 2023) | 4096 | 16 GB GDDR6 | 14.2 TFLOPs; GTX 1060 equiv. post-updates; high idle power |
| MTT S50 | August 2, 2024 | 2048 | 8 GB GDDR6 | Low-profile; suitable for esports at 1080p |
| MTT S90 | Mid-2025 (teased) | Not fully disclosed | Not specified | Claims RTX 4060-level in some tests; unverified globally |
Server and AI GPUs
Moore Threads has developed server-oriented GPUs primarily under its MTT S series, targeting AI training, inference, and high-performance computing workloads, with a focus on domestic Chinese supply chains amid U.S. export restrictions on advanced semiconductors.[28][41] The company's MUSA architecture underpins these products, emphasizing multi-GPU scalability through proprietary interconnects like MT-Link, which enables clusters of up to 10,000 accelerators as of July 2024.[58] The MTT S4000, launched in December 2023, serves as the flagship AI accelerator, featuring 48 GB of GDDR6 memory at 16 Gbps for 768 GB/s bandwidth, 128 tensor cores, and PCIe Gen5 x16 connectivity.[41][59] It delivers 25 TFLOPs of FP32 compute performance and supports large language model training, with claims of enabling a three-billion-parameter LLM using clusters of these GPUs.[60] Moore Threads integrates the S4000 into servers like the MCCX D800, a 4U rackmount system housing eight GPUs per unit, optimized for stability in AI training and inference, with software compatibility for PyTorch and a CUDA-like framework.[61][62] Larger deployments include the KUAE Kilocard cluster, comprising 1,000 S4000 GPUs across 125 D800 servers, aimed at hyperscale AI infrastructure.[62] Earlier server products include the MTT S3000, introduced around 2022 on the Chunxiao chip, with 4,096 MUSA cores boosting to 1.9 GHz and 32 GB GDDR6 across a 256-bit bus, positioned for general server graphics and compute tasks.[28][43] An updated S3000E variant was prepared for release by August 2025, maintaining similar core counts but with potential efficiency tweaks.[43] These GPUs leverage Moore Threads' full-stack ecosystem, including MUSA software stack for multi-node orchestration, though independent benchmarks remain limited due to restricted international access and export controls.[63]| Product | Cores | Memory | Bandwidth | Key Features |
|---|---|---|---|---|
| MTT S4000 | 128 Tensor Cores | 48 GB GDDR6 | 768 GB/s | AI training/inference, MT-Link interconnect, PCIe 5.0[41][59] |
| MTT S3000 | 4,096 MUSA | 32 GB GDDR6 | ~500 GB/s (est.) | Server compute, Chunxiao chip basis[28][43] |
Software and Driver Support
Moore Threads provides graphics drivers primarily for its consumer GPUs, such as the MTT S80 and S70, targeting Windows 10 and 11 operating systems.[64][65] The latest driver version, PES 310.120.1, was released on October 1, 2025, incorporating game performance optimizations and fixes for issues in titles like League of Legends and Genshin Impact.[64] Earlier updates, such as version 290.100 in February 2025, claimed up to 120% gaming performance gains over initial releases, building on prior uplifts like 40% in September 2023 and October 2024 drivers.[8][66] Graphics API support has evolved through driver iterations. Initial launches supported DirectX 11, with DirectX 12 compatibility added in a beta driver on October 17, 2024, enabling over 500 DX12-based games including Elden Ring and Death Stranding.[67][68] OpenGL 4.2 and Vulkan support were officially introduced by November 22, 2024, alongside improvements like 80% FPS boosts in PUBG via OpenGL 3.3 updates in late 2023.[69][70] For compute workloads, Moore Threads relies on the MUSA architecture, which includes a unified programming model, runtime, and drivers compatible with APIs like OpenGL, Vulkan, and DirectX across products such as the MTT S4000.[71] The MUSA SDK features the MUSIFY tool, introduced in April 2025, for porting CUDA code to MUSA with minimal rewrites, supporting frameworks like PyTorch and distributed training in Megatron-LM.[72][41] MUSA Toolkit 1.0 launched in May 2023 to aid development.[1] Linux drivers exist for desktop and virtualization use cases, though documentation is limited compared to Windows, with community efforts like an Ollama fork enabling LLM inference on MUSA hardware.[73][74] Driver distribution and compatibility face constraints, often requiring a Chinese phone number for downloads, limiting accessibility outside China.[75] Independent benchmarks indicate persistent software immaturity, with early drivers yielding performance below competitors like the GTX 1650 despite updates.[67] Moore Threads continues iterative releases to address these gaps, focusing on domestic ecosystems like FFmpeg for media processing.[71]Performance Evaluation
Gaming and Graphics Benchmarks
Moore Threads' gaming GPUs, including the MTT S80, S70, and the more recent MTT S90, have been evaluated primarily through synthetic tests and real-world gaming frame rates in Chinese markets, with limited independent Western benchmarks due to export restrictions and software immaturity. Early assessments in 2023 positioned the MTT S80 as roughly equivalent to NVIDIA's GeForce GTX 1050 Ti in titles like Assetto Corsa, averaging 60-70 FPS at 1080p low settings, but it drew 142W compared to the 1050 Ti's 60W, yielding poor efficiency.[51] Frame time inconsistencies were notable in esports games like CS:GO, where stuttering impacted playability despite acceptable average FPS.[76] Driver optimizations have driven substantial gains; by mid-2024, the MTT S80 achieved 8617 points in 3DMark Fire Strike, doubling prior scores, with similar uplifts in games like Diablo III reaching playable 1080p highs.[53] Moore Threads claimed a 120% overall gaming boost for S-series cards via the February 2025 driver version 290.100, emphasizing Vulkan and DirectX 11 compatibility, though DirectX 12 beta support added in October 2024 still trailed the GTX 1650 in 3DMark Time Spy (3,783 points total).[8][67] The MTT S3000, oriented toward professional graphics, delivered 14.4 TFLOPs FP32 but lacked widespread gaming tests, with specs suggesting mid-range rasterization capability akin to older NVIDIA cards.[77] Leaked 2025 benchmarks for the MTT S90, based on the Chunxiao architecture, reported competitive results against the GeForce RTX 4060, including 43 FPS average in unspecified 4K ultra gaming scenarios versus the RTX 4060's 42 FPS, crediting refined drivers for closing the gap in rasterization-heavy workloads.[7] These figures, however, stem from domestic influencers and company-aligned tests, with skeptics noting potential optimizations for select titles and absent ray tracing or upscaling benchmarks where NVIDIA dominates.[57] Synthetic metrics like PassMark place the S80 below the Radeon R9 280 and far from modern mid-range GPUs, underscoring persistent architectural limitations in shader efficiency and API maturity.[78] Overall, while iterative software has elevated viability for budget 1080p gaming in supported ecosystems, empirical data reveals Moore Threads cards lag global leaders in power-normalized performance and feature parity.[79]AI, HPC, and Inference Workloads
Moore Threads' server-oriented GPUs, such as the MTT S4000, are designed for AI training and inference, featuring the third-generation MUSA architecture with 128 tensor cores, 48 GB of GDDR6 memory at 768 GB/s bandwidth, and compute capabilities including 200 TFLOPS in FP16/BF16 and 200 TOPS in INT8.[80] The MTT S4000 supports CUDA compatibility through the MUSIFY translation framework, enabling migration of NVIDIA-optimized code with minimal overhead.[80] [81] In AI training workloads, the MTT S4000 has been deployed in clusters like the Kua'e Qianka Intelligent Computing Cluster, where it powered the training of the 3-billion-parameter MT-infini-3B large language model over 13.2 days without failures, achieving a third-place ranking in an undisclosed AI benchmark suite and reportedly outperforming certain unspecified NVIDIA GPU configurations.[60] A 1,000-GPU KUAE cluster demonstrated 91% near-linear scaling efficiency via the MTLink interconnect, completing training of a 70-billion-parameter model on 200 billion tokens in 33 days and a 130-billion-parameter model in 56 days.[80] MTLink further supports scaling to 10,000 GPUs, facilitating large-scale distributed training.[82] For inference, Moore Threads GPUs including the MTT S4000 and MTT S80 have run the DeepSeek-R1-Distill-Qwen-7B model using the Ollama framework and an optimized inference engine, with the company claiming "excellent" and "high" performance, particularly for Chinese-language tasks, though no quantitative metrics such as tokens-per-second have been publicly detailed.[83] Compatibility extends to DeepSeek V3 and R1 models across Windows, Linux, and macOS.[83] In high-performance computing (HPC), Moore Threads GPUs contribute to domestic Chinese supercomputing efforts, with MTT S4000 integration planned for systems like those from Sugon, but no entries appear on the TOP500 list as of November 2024, and independent HPC benchmarks remain scarce.[84] Cluster interconnects like MTLink enable HPC-scale parallelism akin to AI workloads, but empirical results are primarily self-reported by the company without third-party validation.[82]| MTT S4000 Compute Performance | Value |
|---|---|
| FP32 | 25 TFLOPS |
| TF32 | 50 TFLOPS |
| FP16/BF16 | 200 TFLOPS |
| INT8 | 200 TOPS |
Comparisons to Competitors
Moore Threads' graphics processing units (GPUs) have been benchmarked against leading competitors such as NVIDIA's GeForce RTX series for consumer gaming and A100/H100 for AI/server workloads, with performance varying significantly by application and optimization level. In gaming, early MTT S80 models from 2023 underperformed even low-end NVIDIA cards like the GT 1030 and trailed AMD integrated graphics, but driver updates by mid-2024 doubled synthetic scores in tests like 3DMark Fire Strike to around 8,617 points.[53] [85] Newer MTT S90 variants, tested in 2025, achieved parity or slight edges over the NVIDIA RTX 4060 in select games, leveraging the Chunxiao architecture for mid-range competitiveness in optimized titles.[86] [57] Aggregate benchmarks, however, indicate persistent gaps, with the RTX 3060 outperforming the MTT S80 by approximately 579% and the RTX 4060 by 679% across diverse workloads.[87] [88]| Benchmark | Moore Threads MTT S80 | NVIDIA RTX 3060 | NVIDIA RTX 4060 |
|---|---|---|---|
| Aggregate Performance Multiplier | Baseline | 579% faster | 679% faster |
| 3DMark Fire Strike (post-2024 drivers) | ~8,617 points | N/A (superior in rasterization) | N/A (superior in rasterization) |
Business Operations
Funding Rounds and Investments
Moore Threads, founded in June 2020, secured its initial financing in September 2020 through an angel round led by Peixian Capital, marking the company's first external investment just three months after establishment.[92] This early backing supported initial operations amid China's push for domestic semiconductor self-reliance. Subsequent rounds accelerated, reflecting strong investor interest in GPU technology for AI and computing applications. In November 2021, the company raised approximately CNY 2 billion (about $313 million) in a Series A round, co-led by Guosheng Capital, 5Y Capital, and BOC International, among others.[93] [94] This funding valued Moore Threads at a significant multiple over its seed stage and enabled expansion of R&D for graphics processing units. By late 2022, a Series B round brought in CNY 1.5 billion (roughly $215 million) from investors including a China Mobile-affiliated fund and Hexie Health Insurance, pushing post-money valuation toward CNY 29 billion.[95] [16] Further capital infusions followed, including a Series B+ round in November 2023 with undisclosed terms from entities like Houxue Capital and Zhonghe Capital, shortly before U.S. export restrictions impacted operations.[96] A reported Series C in December 2024 raised around $716 million, contributing to cumulative funding exceeding $1.2 billion across multiple rounds.[97] Overall investors have included prominent firms such as Sequoia Capital China, GGV Capital, ByteDance, Tencent, and Shenzhen Capital Group, alongside state-linked funds, highlighting blended private and government-aligned support.[3] Pre-IPO valuations reached approximately CNY 25 billion (about $3.4 billion) in a 2023 raise, underscoring rapid growth despite geopolitical tensions.[98]| Round | Date | Amount (CNY) | Key Investors |
|---|---|---|---|
| Angel | September 2020 | Undisclosed | Peixian Capital |
| Series A | November 2021 | 2 billion | Guosheng Capital, 5Y Capital, BOC International |
| Series B | December 2022 | 1.5 billion | China Mobile fund, Hexie Health Insurance |
| Series B+ | November 2023 | Undisclosed | Houxue Capital, Zhonghe Capital |
| Series C | December 2024 | ~5 billion (est. $716M) | Various (details limited) |
Financial Performance and Losses
Moore Threads has demonstrated accelerating revenue growth amid heavy investments in GPU development, yet it has incurred substantial operating losses driven primarily by research and development costs. The company's revenue reached 46 million yuan in 2022, rising to 124 million yuan in 2023 and 438 million yuan in 2024, yielding a compound annual growth rate of over 200 percent.[48] [99] This expansion continued into 2025, with first-half revenue hitting 702 million yuan, exceeding the full-year 2024 figure.[100] Revenue from AI cluster products alone accounted for over 42 percent of 2024 sales, at 184 million yuan.[101] Net losses, however, have remained pronounced, totaling 4.61 billion yuan cumulatively from 2022 through 2024 after excluding non-recurring items, reflecting the capital-intensive nature of semiconductor design in a market dominated by established competitors.[101] Annual deficits narrowed progressively from 1.84 billion yuan in 2022 to 1.67 billion yuan in 2023 and 1.49 billion yuan in 2024.[102] [4] Research and development expenditures totaled 3.8 billion yuan over this period, comprising a major portion of costs and underscoring the firm's focus on advancing domestic GPU architectures amid U.S. export restrictions.[13] Gross profit margins improved markedly from 25.87 percent in 2023 to 70.71 percent in 2024, sustained at 69.14 percent through the first half of 2025, attributable to scaling production of higher-margin AI-oriented products.[103] Despite revenue momentum, profitability remains elusive, with accumulated unrecovered losses standing at 1.478 billion yuan as of mid-2025, as the company prioritizes technological iteration over short-term financial breakeven.[104]| Year | Revenue (million yuan) | Net Loss (billion yuan) |
|---|---|---|
| 2022 | 46 | 1.84 [48][102] |
| 2023 | 124 | 1.67 [99][4] |
| 2024 | 438 | 1.49 [48][4] |