WHITE PAPER VERSION 1.03 The ICO public sale: 2018 Q4 The Mobile Computational Network Page 1 PREFACE We exist in a computer age where there is a struggle to cope with a scarcity of computational resources. A vast digital influx of critical data emerges daily, yet our reach to such capacity is challenged to keep afloat. It all stems from “Big Data” commercial applications, and exponential growth of ambitious scientific research. We seek to understand everything and everyone - from subatomic particles, to analysis of DNA genomes, social behavior and the outer limits of astrophysics and cosmology. From the “micro” to the “macro”, our insatiable computational needs kept spiraling out of control. The NATEE project is one of computational conservation. NATEE is a word in the Thai language which translates as “minute”. We can envision the millions of smartphone conversations unravelling “per minute” across the internet helps to illuminate the company’s name, and untapped potential of “mobile grid computing” Page 2 Table of Contents 1 Introduction 4 2 Understanding grid computing 7 3 Market situation 8 4 Problem statement 9 5 Solution outline of the vision 11 6 NATEE’s applications for big data 12 7 Business model 13 8 NATEE company and research 17 9 Key success factors 18 10 NATEE ecosystem 20 11 NATEE architecture 21 12 NATEE platform 25 13 Grid management 27 14 Incentive Mechanism for Mobile Decentralized Computing Systems 30 15 NATEE Research collaboration with NTU 32 16 Tokenomics the NATEE token 33 17 Crowd sale NATEE ico plans 35 18 Team NATEE 39 19 References 42 Page 3 INTRODUCTION “Connecting passive usages of personal device to some passive income” 1 Global computing power is a critically important resource of our time. While most internet enabled mobile devices sit idle, on standby, they are under-utilized. NATEE’s platform can empower a new generation of smartphone users to earn passive income while awake, or asleep by simply downloading a mobile app. Today’s smartphones CPU/GPU cores are more powerful than most desktop computers, so with Wi-Fi & 4G are ripe for sharing. Intensive R&D projects will pay top dollar for available computational outsourcing of “Big Datai” (petabytes). Computing power is the critically important resource of our time, yet is mostly untradeable, because it is dispersed across the globe, segregated on businesses servers, or dedicated to personal desktops, laptops and smartphones. While mobile devices’ power is on, they are largely under-utilized, sitting idleii waiting for a call, and especially unused when people sleep. An innovative way has recently been developed by NATEE to safely capture various parts of your mobile devices’ performance redundantly and with dynamic scalability. It can share memory capacity and processing capacity. The NATEE platform bridges these shared capacities and commoditizes computer power in a coordinated way. NATEE views your mobile device as a virtual gold mine! There is the precious potential of your smartphone’s CPU / GPU processor core and available unused memory. NATEE estimates to capture 2 percent of the cloud computing market share by creating a disruptive “mobile grid network” to efficiently cope with Big Data with scalability. THREE-PHASES APPROACH According to milestones shown in the Road Map section, NATEE will roll out its technology plan in three phases beginning with CPU harvesting of smartphones in the CPU Genesis Phase, and then moving to GPU (Graphics Processor Units) and the GPU Phoenix Phase optimized for renting a smartphone’s GPU for Video Graphics Rendering and advanced A.I.iii machine learningiv tasks. Finally, in phase 3, the Storage Mirror Phase will signal the launch of Decentralized Storage development. • Phase 1: CPU Genesis Phase: NATEE’s CPU harvesting of smartphones for computational outsourcing on decentralized cloud computing networks. • Phase 2: GPU Phoenix Graphic A.I. Phase: Graphics Processor Units that already embedded in smartphones, tablets and other mobile devices will be harnessed. • Phase 3: STORAGE Mirror Phase (Decentralized Storage Mirroring): Distributed Storage across various smartphones and other mobile devices necessarily involves redundancy protection, encrypted privacy, peer-to-peer file sharing protocols, shardingv, and guaranteed retrievability. In this way more, the capabilities and features of mobile devices can be recruited and exploited on the NATEE grid supercomputervi. "Decentralized file storagevii systems have the potential to eliminate high markup costs and market inefficiencies and provide a much higher level of privacy, reliability and quality of service than we see today." – Vitalik Buterinviii Page 4 All core capabilities of the CPU, GPU and Memory can become golden assets. The value of opportunity is located deep within each device’s heart center and onboard memory banks enabled by device cores and IC “chip sets”. The NATEE challenge will be to incentivize and engage the community of billions in new ways, to buy into token exchanges for sharing their raw compute power and allowing CPU’s, GPU’s and memory to be exploitable for either charitable beneficence, or monthly profits. A VAST UNUSED POTENTIAL Few realize the implications of emerging raw computational powers that modern smartphones now possess. Exceptional core CPUs on the new iPhoneTM or SamsungTM devices “show off” blazing performances with superior GPU (Graphics Processor Units) speeds to 60% of desktop home computers and exhibiting impressive on-board memory as well. The astounding powers of today’s smartphones continue to amaze the public with ever accelerating performance and novel capabilities. The question is how to monopolize on all this? Distracted and addicted to their smartphones, most users are largely unaware of the potential earning machine inside their pockets (or purses as the case may be!). They often pay top dollar for a latest model smartphone ($1000 USD), only to surrender an associated fee gauging of WIFI or 4G internet access. Yet much of the overall compute power is simply wasted! While Stellar iOS or Android performance is under- utilized, its memory storage can be made available. The opportunity to harness this computing power as part of a coordinated, resilient mobile grid network is immense. As worldwide demand and competition for compute power explodes, we observe several billions of internet ready mobile devices severely underutilized. They live whilst lamenting a wasted potential for sharing CPU, GPU and storage memory. Aggravating the predicament are expensive solutions such as cloud computing, or grid computing farms (at double the cost of NATEE). Similarly, existing competitors from supercomputers and cluster farms are considered too capital intensive to support large scale R&D and commercial “Big Data” graphics applications. Meanwhile, quantum computing remains an unattainable dream for most. • for target customers intensive video focus for applications like A.I. machine learning programs and the video & gaming industries requirements for CGIix graphics renderingx. For example, each second of high-definition video, for example, generates more than 2,000 times as many bytes as required to store a single page of text. GOLDEN OPPORTUNITY FOR SMARTPHONES USERS Smartphones are severely under-utilized. Like cars in a garage, most of the time these devices sit idle on standby an estimated 90% of the time; and especially as users are asleep. Presently, this untapped compute potential is untradeable and goes mostly wasted. The same for other mobile devices such as Tablets, IoTxi (Internet of Things), FOGxii / Edgexiii routers, and POSxiv (Points of Sale), boxes. Collectively, this pool of latent resources is 1,000 times the size of Amazon’s global cloudxv. Page 5 The same goes for tablets, IoT (Internet of Things) smart devices, POS (Points of Sale) and many other mobile FOG or network edge devices. Desktop computers, while not the present focus of the NATEE target demographic, are no different, they run screensavers languishing without a dedicated purpose while their computing potential is huge. The average person uses their smartphones 11% of the time, between 2-3 hours per day. So 20+ hours free for grid computing! The timings and logistics are fully programmable by users, who may want to reserve full access to their mobile devices at specific times such as working hours. However, even during a lengthy phone conversation or mobile video game, a smartphone’s runs well below maximum load capacity, so can still be exploited at these times, on grid. The NATEE App is intended to exploit these unused performance availability gaps, to bridge multitudinous supply with industry’s growing computational needs. As internet access speeds grow (4G, 5G & beyond) most smartphones are simultaneously connected to Wi-Fi or cell towers. Until now, mobile devices such as tablets, POS, FOG and IoT have NOT been included in the data intensive work unfolding across distributed grid computing networks. NATEE Systems novel distributed sharing solution can recruit mobile CPU cores from various devices, to render raw compute power. NATEE believes mobile computational outsourcing to grid computing networks is destined to become a next logical future game changer. Page 6 UNDERSTANDING GRID COMPUTING The goal of grid computingxvi is simply to merge computers and their processors (CPUs) from distributed geographic locations towards a common computational goal. It is a field of 2 computer science that aims to speed up the processing of large
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