Ahhh yes, the FNTF, Funky Ninja Tactical Force 🥷 🥷 🥷

FNTFは、すでに2022年にインカムから両建てで遊びまくって取引済みなのー🤣なんなら昨年140万円吹っ飛ばしたとき、FXTFでヘッジしてた🤣

أعلنت الصين تفعيل ما تصفه بأنه أضخم منظومة حوسبة ذكاء اصطناعي موزعة في العالم، بقدرة تمتد عبر مساحة تبلغ 1,243 ميلاً (نحو 2000 كيلومتر)، وتعمل بكفاءة تصل إلى 98% من أداء مركز بيانات واحد، رغم تباعد مواقع مراكز الحوسبة المرتبطة بالمنصة. المنظومة، المعروفة باسم "منشأة اختبار الشبكات المستقبلية" (FNTF)، دخلت الخدمة رسمياً في 3 ديسمبر، لتربط مراكز بيانات منتشرة في عشرات المدن عبر شبكة ضوئية فائقة السرعة، ما يسمح لها بالعمل ككيان واحد يشبه حاسوباً عملاقاً موحداً. #شيء_تك #العربية

الصين تشغل أكبر منظومة حوسبة ذكاء اصطناعي في العالم وش الفكرة؟ ربط مراكز بيانات منتشرة في عشرات المدن عبر شبكة ضوئية فائقة السرعة (FNTF) ويسمح لها بالعمل ككيان واحد يشبه حاسوب عملاق موحد. وتمتد عبر مساحة تبلغ 2000 كيلومتر وتعمل بكفاءة تصل إلى 98%

The large-scale, distributed AI-computing network, known as the Future Network Test Facility (FNTF), started operating last week. #AI #China #network cnews.link/china-giant-ai-ne…

China activates 1,243-mile distributed AI supercomputer network | Neetika Walter, Interesting Engineering China switches on a nationwide optical backbone that fuses scattered data centers into an ultra-fast, unified AI supercomputer. China just switched on what may be the world’s largest distributed AI supercomputer, and it spans more than 1,243 miles. The country has activated a massive, nationwide optical network that links far-flung data centers so efficiently they can work “almost as a single giant computer,” according to Science and Technology Daily. The system forms a 1,243-mile-wide pool of computing power capable of achieving 98 percent of the efficiency of a single data center, Liu Yunjie, chief director of the project and a member of the Chinese Academy of Engineering, told the state publication. China’s top computing facilities are scattered across the country. Connected through this new optical backbone, they can now act as a unified machine designed to accelerate AI model training and other compute-heavy research. Nationwide compute fusion Liu said the implications of this dedicated, high-speed “data highway” are “revolutionary for scenarios with extremely high real-time demands, such as AI large model training, telemedicine and the industrial internet.” The backbone is part of the Future Network Test Facility (FNTF), China’s first major national infrastructure project in the information and communication sector. After more than a decade of development, it officially entered operation on December 3. Researchers say the facility significantly cuts both training time and cost for AI models. According to Liu, “Training a large model with hundreds of billions of parameters typically requires over 500,000 iterations. On our deterministic network, each iteration takes only about 16 seconds. Without this capability, each iteration would take over 20 seconds longer.” He also noted that the platform is “ideally positioned to serve the national ‘East Data West Computing’ project,” which shifts data processing to China’s energy-rich western regions. Decade-long national build FNTF’s development began in 2013 as part of China’s long-term national science infrastructure roadmap. The facility now spans 40 cities with more than 34,175 miles of optical transmission lines, enough to wrap around the Earth one and a half times. Operating around the clock, it supports 128 heterogeneous networks and 4,096 service trials in parallel, making it one of the most extensive testbeds ever deployed. The project team has created 206 international and domestic standards, secured 221 invention patents, and built what they describe as the world’s first distributed large-scale network operating system. Liu said the network will eventually be opened to sectors including industrial manufacturing, energy, power, and the low-altitude economy. Its capabilities were demonstrated at last week’s launch ceremony, when a 72-terabyte dataset from FAST, the world’s largest single-dish radio telescope, was transmitted across 621 miles in just 1.6 hours. Over the regular internet, the transfer would have taken about 699 days. The ultra-fast transmission was enabled by a deterministic network channel that guarantees dedicated bandwidth, ultra-low latency, and near-zero packet loss. When researchers overloaded a parallel 42 Gbps standard channel, speeds collapsed below 1 Gbps, while the 50 Gbps deterministic link stayed at full capacity. A deterministic network operates “like a precise train timetable,” where every data packet arrives on schedule, state media reported. Wu Hequan, another member of the Chinese Academy of Engineering involved in evaluating the project, told Science and Technology Daily that the technologies behind FNTF had already supported the development of 5G Advanced and 6G. “Going forward, both research institutions and enterprises will be able to test various new technologies on this platform,” he said. China activates 1,243-mile distributed AI supercomputer network | Neetika Walter, Interesting Engineering China activates massive distributed AI system spanning 1,243 miles nationwide China switches on a nationwide optical backbone that fuses scattered data centers into an ultra-fast, unified AI supercomputer. China just switched on what may be the world’s largest distributed AI supercomputer, and it spans more than 1,243 miles. The country has activated a massive, nationwide optical network that links far-flung data centers so efficiently they can work “almost as a single giant computer,” according to Science and Technology Daily. The system forms a 1,243-mile-wide pool of computing power capable of achieving 98 percent of the efficiency of a single data center, Liu Yunjie, chief director of the project and a member of the Chinese Academy of Engineering, told the state publication. China’s top computing facilities are scattered across the country. Connected through this new optical backbone, they can now act as a unified machine designed to accelerate AI model training and other compute-heavy research. Nationwide compute fusion Liu said the implications of this dedicated, high-speed “data highway” are “revolutionary for scenarios with extremely high real-time demands, such as AI large model training, telemedicine and the industrial internet.” The backbone is part of the Future Network Test Facility (FNTF), China’s first major national infrastructure project in the information and communication sector. After more than a decade of development, it officially entered operation on December 3. Researchers say the facility significantly cuts both training time and cost for AI models. According to Liu, “Training a large model with hundreds of billions of parameters typically requires over 500,000 iterations. On our deterministic network, each iteration takes only about 16 seconds. Without this capability, each iteration would take over 20 seconds longer.” He also noted that the platform is “ideally positioned to serve the national ‘East Data West Computing’ project,” which shifts data processing to China’s energy-rich western regions. Decade-long national build FNTF’s development began in 2013 as part of China’s long-term national science infrastructure roadmap. The facility now spans 40 cities with more than 34,175 miles of optical transmission lines, enough to wrap around the Earth one and a half times. Operating around the clock, it supports 128 heterogeneous networks and 4,096 service trials in parallel, making it one of the most extensive testbeds ever deployed. The project team has created 206 international and domestic standards, secured 221 invention patents, and built what they describe as the world’s first distributed large-scale network operating system. Liu said the network will eventually be opened to sectors including industrial manufacturing, energy, power, and the low-altitude economy. Its capabilities were demonstrated at last week’s launch ceremony, when a 72-terabyte dataset from FAST, the world’s largest single-dish radio telescope, was transmitted across 621 miles in just 1.6 hours. Over the regular internet, the transfer would have taken about 699 days. The ultra-fast transmission was enabled by a deterministic network channel that guarantees dedicated bandwidth, ultra-low latency, and near-zero packet loss. When researchers overloaded a parallel 42 Gbps standard channel, speeds collapsed below 1 Gbps, while the 50 Gbps deterministic link stayed at full capacity. A deterministic network operates “like a precise train timetable,” where every data packet arrives on schedule, state media reported. Wu Hequan, another member of the Chinese Academy of Engineering involved in evaluating the project, told Science and Technology Daily that the technologies behind FNTF had already supported the development of 5G Advanced and 6G. “Going forward, both research institutions and enterprises will be able to test various new technologies on this platform,” he said. interestingengineering.com/a…

中国が始動させた「国土を巨大コンピュータ化」する野望：2,000kmを結ぶAIスーパーネットワーク「FNTF」の全貌と衝撃 | XenoSpectrum xenospectrum.com/china-unvei…

🚨🇨🇳 China activates massive 2.000 km AI computing pool. China has officially unveiled its Future Network Test Facility (FNTF), a 2,000km-wide distributed AI computing network designed to accelerate the development of AI, telemedicine, and industrial applications.

South China Morning Post (Çin): Çin, 2.000 km genişliğinde dağıtık AI hesaplama havuzunu devreye aldı 🤖⚡ 🔹 Çin, ülke çapına yayılan optik ağ ile birbirine bağlanan veri merkezlerinin tek bir dev bilgisayar gibi � verimle çalışmasını sağlayan dev bir yapay zeka hesaplama altyapısını faaliyete geçirdi. 🔹 Science and Technology Daily’ye konuşan proje direktörü ve Çin Mühendislik Akademisi üyesi Liu Yunjie, bu sistemin “AI büyük model eğitimi, tele-tıp ve endüstriyel internet gibi yüksek gerçek zamanlılık gerektiren alanlar için devrim niteliğinde” olduğunu söyledi. 10 yıldan uzun süren hazırlık sonrası devreye alınan ağ 🔹 “Gelecek Ağ Test Tesisi (FNTF)” adı verilen proje, Çin’in bilgi ve iletişim alanındaki ilk büyük ulusal altyapı yatırımı oldu ve 3 Aralık’ta resmi olarak hizmete girdi. 🔹 Sistem, Çin’in doğusundan batısına veri taşımayı amaçlayan ‘East Data West Computing’ girişimi için kritik bir rol üstleniyor. Daha ucuz enerjiye sahip batı bölgeleri, bu sayede yüksek hacimli veri işlemlerini üstlenebilecek. AI eğitimini aylar kısaltıyor 🔹 Yüz milyarlarca parametreye sahip modellerin eğitimi için gereken 500.000’den fazla iterasyon FNTF’de her biri sadece 16 saniyede tamamlanıyor. 🔹 Liu’ya göre mevcut internetle her iterasyonun 20 saniye daha uzun sürmesi, tüm eğitimin aylarca gecikmesine yol açardı. Dev optik ağ: Dünya çevresinin 1,5 katı uzunluk 🔹 FNTF, 40 şehri kapsıyor ve 55.000 km’den uzun optik hat içeriyor. 🔹 Sistem aynı anda 128 heterojen ağı destekleyebiliyor ve 4.096 servis denemesini paralel çalıştırabiliyor. 🔹 Ekip bugüne kadar 206 standart, 221 patent geliştirdi ve dünyanın ilk dağıtık büyük ölçekli ağ işletim sistemini oluşturdu. Deterministik ağ: 699 günlük veri 1,6 saatte taşındı 🔹 FAST radyo teleskobunun ürettiği 72 TB veri, Guizhou–Wuhan arasında 50 Gbps garantili deterministik ağ üzerinden 1,6 saatte aktarıldı. 🔹 Aynı veri normal internetle gönderilseydi 699 gün sürecekti. 🔹 Test sırasında normal 42 Gbps kanal trafik eklenince 1 Gbps’in altına düşerken, deterministik ağ tam 50 Gbps hızını korudu. Gelecek kullanım alanları 🔹 Ağa, yakın dönemde sanayi, enerji, elektrik şebekeleri ve düşük irtifa ekonomisi gibi sektörlerin de bağlanması planlanıyor. 🔹 Proje, Çin’in 5G Advanced ve 6G Ar-Ge çalışmalarına da doğrudan destek veriyor. Kaynak: South China Morning Post (Çin)

Gm…Today’s ticker is $FNTF

Yes I like fntf

Ben Shepherd with some quality 🤌🤌 picks. Obi being a FntF guy surprises no one 😂 Dudes saying Avatar???? FR?? I never heard anyone say that's one of their favorite movies ever

全ての最後にフェスティバルをつけてくるおじさんがおったんですよww 「バトルトーナメントフェスティバル」 「FNTF~フォートナイト トーン フェスティバル」 まだ色々ありましたが、とにかくフェスおじがいました🤣w

If you did the Sonic Airdrop and awaiting claim Go through this and get positioned 25% releases and 75% converted to Fntf and vested ✍🏻✍🏻

Do you realize how much is lined up for Sonic, @aixbt_agent? -Season 1 airdrop claim fNTF trading on @paint_swap -Sonic Korea event -Surprise on the 17th -Kaito yapping leaderboard -Account Abstraction (EIP-7702) -Dynamic Fees -SonicVM -Sonic Summit 2025 Singapore -Flying Tulip -New Dapps coming to Sonic -Sonic Creator Program ... $S is so underpriced

🔍 What Is OP Kailua? Understanding the Verifiable Compute Layer Inside the Boundless Stack Hello everyone, Today, I want to introduce a key component of the Boundless zk-stack : OP Kailua. To describe this module in a single word : compression. But not just any compression this is about compressing computation into verifiable proof. 🧠 Phase 1: The Meaning of Compression in Verifiable Compute Traditionally, blockchains handled static operations like storing data or transferring tokens. But verifying the outcome of complex computations directly on-chain was considered too slow, costly, and inefficient. That changed with the advent of zk (zero-knowledge) systems, where verifiable computation could be executed off-chain and submitted as a proof to the chain. This is the foundation of verifiable zk proof of work, and OP Kailua plays a vital role in that process. Here’s a metaphor I often use: In a traditional system, to verify that 1.23245 9.3293232 equals 10.5617732, we’d run through every step of the math using formal logic and theory. But in the zk world, you’d simply say, “Trust me, I know it’s around 10.56 and here’s a cryptographic proof that I did the math honestly.” This transformation of exhaustive computation into a verifiable zk proof is what we mean by compression in Boundless. 🔧 Phase 2: The Role of OP Kailua in the Boundless Marketplace In the Boundless marketplace, a user may submit a request like this: “I want to buy a BoundDog FNTF for 1 ETH.” This request gets turned into an intent a programmable declaration of what the user wants done, under what conditions. OP Kailua listens for such intents and automatically converts them into a Job Spec: a structured request format that includes all the metadata needed for a Prover to generate a valid proof in the off-chain world. According to RISC Zero : "Kailua is a toolkit for generating ZK fault proofs and automating the transformation of intents into ZK-friendly job specs." A Job Spec contains key elements like : 🍓expected_cycles : How many RISC-V cycles are needed to run the computation 🍓deadline : The time limit to submit the proof 🍓input_data : The calldata or state values required 🍓proof_type : Such as PoVW (Proof of Verifiable Work) 🍓metadata : Contextual details like user address, creation time, job ID Here’s a sample Job Spec : json{ "job_id": "0x8adf...", "input_data": { "from": "0x123", "to": "bound dog market", "amount": "1 ETH" }, "conditions": { "deadline": "2025-07-03T12:00:00Z", "check_blacklist": true }, "zkvm_config": { "expected_cycles": 184523, "proof_type": "PoVW" }, "metadata": { "created_at": "2025-07-02T08:12:00Z" } } This structured job is then submitted to Bento, the zkVM runtime used by Boundless (built on RISC Zero), which executes the computation and outputs a proof. Once validated, the Prover receives the reward in Boundless tokens. 🧩 OP Kailua Is the Conversion Layer Think of OP Kailua as the intent-to-job translator. Without it, the chain would not understand what kind of work needs to be done, nor could it assign it to the proper Prover. It's like a compiler turning human-readable code into machine executable logic but for cryptographic proof generation. To summarize, OP Kailua is a vital piece of the Boundless protocol that enables : 🍓Automated parsing and formatting of intents 🍓Generation of verifiable compute jobs 🍓Seamless interaction between the on-chain and off-chain worlds Although OP Kailua doesn’t take the spotlight often, it quietly powers the reliability, efficiency, and automation of the entire Boundless marketplace. Stay tuned next time, we’ll explore Bento and how zkVMs actually compute these proofs under the hood.

Ana fach kanchof smyto fntf 🥰😍

Ver esto y no entender que tenemos un milagro de presidente, es no entender nada. Si no te alcanza, podes ver la nota anterior con Fantino cuando habló de Opera o la anterior que explicó su fondo de pantalla FNTF. FNTF gracias a vos @JMilei , gracias loco, por fin llegaste!

Speed Racer is the Fury Road of FNTF movies and it deserves 5 different resurrections across the remainder of human history.

🚀UPCOMING PUBLIC SALES🔥 @Zephyr_Platform @Toshi_base @SimonsCat @TokAi_Official_ @bullrunbets @nomoex_global @u_topiastudio @Pika_Web3 @clapartofficial @FantasyFanton 🧐Keep an eye on these projects！ 📌Don't miss ! $ZEFY $TOSHI $CAT $TOK $BRBC $NOMOX $U $PIKA $CLP $FNTF