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Topic: [ANN] SERVERCUBE - Revolution of Mining Machines | Swarm Network on Blockchain (Read 302 times)

full member
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Merit: 105
This will be the 2nd Generation of Mining Machines that will change how should mining be efficiently use. I am interested on your project. Where can I find more details or start a discussion about the team behind this project ?
newbie
Activity: 84
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will looking forward to the bounty,hope will run it smoothly of this project,ill follow
newbie
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newbie
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ServerCube's Power, Sound Measurement and Hashing Rate. Products Demo

https://i.imgur.com/ZH5fb5h.jpg
newbie
Activity: 90
Merit: 0
The ANN is not clearly presented the function and the benefits of this project, i guess, the announcement thread must be clear in pointing out the benefits and advantages and the use of a certain project, the white paper will surely having that informations but still, it's the ANN that really needs to be informative.

We value your suggestion. We will be making changes on this thread pointing our your ideas. Thanks.
copper member
Activity: 2800
Merit: 1179
Leading Crypto Sports Betting & Casino Platform
The ANN is not clearly presented the function and the benefits of this project, i guess, the announcement thread must be clear in pointing out the benefits and advantages and the use of a certain project, the white paper will surely having that informations but still, it's the ANN that really needs to be informative.
newbie
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Bounty Campaign will be live soon
newbie
Activity: 90
Merit: 0
Tokensale will start on March 31



A Disruptive Model for Global Distribution of High Performance Computing Power.

A SC Device is a residential mini supercomputer connected to other SC Devices around the world.
The aggregated high capacity computing power of the network as it scales offers opportunities to
mine crypto and solve difficult global computing problems in a whole new way.

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THE SERVERCUBE PARADIGM:
1. A Movement to Decentralize
The concept of the Blockchain is rooted in decentralization. Blockchains use distributed ledgers, which make
transactional data transparent to anyone, it uses consensus algorithms to validate transactions in a trustless,
peer-to-peer (“P2P”) model that anyone can participate in, and it provides an immutable audit trail that
provides a continuous and indefinite history of all transactions in the Blockchain. These features also allow
Blockchain operations such as mining for transaction validations to occur at a global concurrent scale, and it
also allows Blockchains to be used for myriad enterprise applications: anywhere where there is a need to
provide strict and transparent data control with a mathematically sound foundation.
But these critical Blockchain activities operate under the current cloud computing paradigm which relies on
large standalone data centers. This concept of centralized data centers is the very antithesis of the definition
of Blockchain. The Blockchain is inherently decentralized, while storing all Blockchain transactions in a
centralized datacenter is inherently centralized.
Additionally, these industrial-scale operations are fundamentally centralized, employing command and control
management models while creating security vulnerabilities. Plus, some data centers use as much electricity as
a small city, creating large carbon footprints. They are expensive to implement, maintain, and use. Finally,
large datacenters concentrate computing power in a very monopolistic way, requiring faith and trust in
multibillion dollar enterprises such as Google, Amazon or Microsoft to validate access and guarantee security.
This is in stark contrast to the Blockchain paradigm, which offers an open access model and relies on scalable
computing power distributed around the world.

2. The ServerCube Alternative
ServerCube offers an alternative. A peer-to-peer network of connected devices, designed to operate in
private residences or in small clusters. ServerCube works by distributing SC Devices, which are small highpowered
processing computers connected via the internet and centrally managed. This new paradigm offers
early investors in ServerCube a chance to participate in the Blockchain revolution while earning income by
mining the cryptocurrency ether (ETH). In addition, as part of a global network, ServerCube can provide
aggregated computational resources able to compete with cloud services like AWS and Azure at lower price
points. SC Devices are a perfect fit for the evolution of distributed computing across the globe. Currently,
there is no other organized approach that we are aware of for deploying high performance computing
infrastructure in a global “swarm” model. This gives ServerCube a first mover status, encouraging adoption
and creating barriers to competition.

3. The SC Device
The SC Device is the next-generation residential mini- supercomputers. It is simple to operate, plugging into
any standard (1200-Watt) household outlet, and requiring only a basic consumer broadband connection to
connect to the internet. Specifically, the ServerCube Device offers commercial strength hash rate processing
power (162 MH/s for ETH up to a maximum 225 MH/s), running over a basic 3 (three) Mbps connection. A
ServerCube is also designed to be more energy efficient and uses 95% (ninety five percent) of its cubic space.
With high performance computing now available at residential power prices, mining operations become highly efficient.

4. The SC Device Network
Consumers who deploy SC Devices in their homes become part of a peer-to-peer (P2P) network that can solve
many high-performance computing problems in a decentralized manner. With only 1500 (fifteen-hundred)
ServerCube devices running on the network, aggregate computing power rivals the Titan Supercomputer.
Collectively, a network of 200,000 (two hundred thousand) SC Devices can produce one of the world largest
mining pools. With a network of a million devices, the computational capacity of the platform will begin to
rival the high computing power of the Amazon cloud. The built-in redundancy of all networked SC Devices
creates world-class security and stability. As an internet connected device, all SC Device functions, including
uptime and swarm extensions can be monitored. This kind of distributed computing network already lends
itself to parallelization in the fields of climate modeling and “deep learning artificial intelligence (AI)”.

Patentable IP – Intellectual Property (“IP”) includes the design of the SC Device, which efficiently houses 6 (six)
GPU boards with overclocking at using less than 166 (one hundred and sixty-six) Watts each. It generates less
than 60° C (sixty degrees Celsius) of heat on contact at full load, while operating at 162 (one hundred and
sixty-two) MH/s or greater. Further, the testing and manufacturing process for a SC Device is patentable. In
the future, additional innovations maybe be patented as IP, including MOBE (Motherboard Based) GPUs and
GPGPUs, depending on R&D investment. There is about 10% (ten percent) to 30% (thirty percent) efficiency
loss in GPU processing today because GPUs are PCI-card based.3 The opportunities are clear and achievable.

5. SC Miner
In the cryptocurrency space there are large pools consisting of mining individuals and groups that network
together to increase pay-out performance. Although profitable, the energy required to effectively produce
consistent results in these mining pools is exorbitant and burdensome to the environment. The SC Device
Network is a cleaner, more decentralized solution to produce crypto asset value.
Cryptocurrencies are a new asset class currently experiencing explosive growth around the world. As the
value of crypto skyrockets, demand for mining rigs soars in lock step. Mining hardware is in very short supply.
If you are fortunate enough to find rigs, the cost to own and maintain is rapidly rising. Furthermore, the
strategy and technical skill required to successfully orchestrate successful mining pool operations is exclusive
to small esoteric circles of crypto technology professionals dominating the space.
SC Miners are SC Devices which are owned and maintained by ServerCube but are leased for residential use
and delivered to your doorstep. It is a miner in a box, ready to plug in and mine. Programmed for mining
operations, they connect to the ServerCube Network and produce monthly crypto yields. The Blockchain and
cryptocurrency teams are constantly testing ways increase hash rates and reduce carbon footprint. Executing
nimble mining pool strategies, capitalizing on market trends to search for yield, and the ability to quickly pivot
mining operations to different Blockchains is a strategic advantage for ServerCube.

6. ServerCube Hosts
Every SC Device needs a home to live. Just as an ordinary house plant needs light and water to grow, each SC
Device requires electricity and a stable, wired internet connection (RJ-45 cable connection) or high data
bandwidth cellular coverage to flourish. We call the residences and caretakers of each SC Device a ServerCube
Host (“SC Host”). A houseplant might provide a sense of a natural environment in an urban environment;
a SC Device will compensate the ServerCube Host directly or indirectly.
The ServerCube Hosts will be recruited and enrolled through the ServerCube website, using aggressive
marketing and social media campaigns. ServerCube has already performed some initial market testing and
has potential ServerCube Hosts available in the US, Canada, India and Turkey, all through word-of-mouth and
free online advertising. We believe the potential to enroll millions of ServerCube Hosts is not only possible,
but probable in a 5-year timeframe.

ServerCube Hosts are not miners of cryptocurrency. ServerCube Hosts are not owners of SC Devices. They do
not buy anything and they do not pay for anything. ServerCube Hosts execute a contract to provide basic care
and electricity and internet needs for a SC Device. Instead, the ServerCube Host is incentivized in three ways to
host a SC Device:

A. ServerCube Hosts can provide their electric bills and all the required information for ServerCube to
create an online account to pay their electric bills. ServerCube will use its offshore call center to pay
each ServerCube hosts’ electricity bill in its entirety up to a predefined limit based on location, thereby
covering the cost of the SC Device’s electricity plus providing an additional benefit to the ServerCube
Host since their electric bill is now also paid.


B. In the US, ServerCube Hosts can elect to receive a payment equivalent to approximately $200 USD (two
hundred USD) to $300 USD (three hundred USD) per month if they agree to provide the information
needed for comply with tax regulations. In this model, the ServerCube Host agrees to pay for the
electricity to run the SC Device.


C. In physical locations where, high-speed cellular internet connections are available with some kind of
high limit or unlimited data place, the SC Device can provide a high-speed wi-fi “hotspot” connection
instead. In the markets where a wired internet infrastructure is not ubiquitously available but cellular
connectivity is available, this is especially attractive (such as India or rural parts of the US). In this
model, ServerCube pays for the wi-fi hotspot itself and the ServerCube Host has the benefit of receiving
a no-charge wi-fi hotspot at their location. In this model, the ServerCube Host agrees to pay for the
electricity to run the SC Device and is incentivized to do so, because they will be using the SC Device for
their own internet needs as well. This also eliminates one of the requirements for being a ServerCube
Host, since a wired internet connection is no longer needed.

People all over the world are constantly seeking alternative ways to increase their income or reduce
household expenses, and we believe millions of households will be eager to supplement their earnings by
hosting a small computer device. And rewarding households with monthly payments, paid electric bills or nocharge
wi-fi hotspots will drive adoption. This form of independent income can greatly benefit those who
have been until now, disenfranchised from the benefits of the digital revolution. The ServerCube business
model has the potential to change lives and provide opportunity in communities where little exists by creating
access to globally distributed computing power.
ServerCube Hosts are required to register and verify they have electricity and Internet access as needed to
host a SC Device. Once verified and accepted, an onboarding call is scheduled and a ServerCube is delivered to
the address of the host. For the model where SC Host payments are made in the US, Hosts will receive a 1099
Form for crypto assets converted to fiat to meet tax compliance laws. In all compensation models to
ServerCube Hosts, a minimum uptime of 95% (ninety-five percent) is required to receive the full benefit of the
compensation model, with deductions made accordingly for reduced uptime.

ServerCube’s Goal: Creating a Distributed High Performance Computing Power Platform
Providing Blockchain as a Service (BaaS) on the ServerCube Network is our long-term vision beyond
cryptocurrency mining. Our global distributed model harnesses the high-performance computing muscle of SC
Devices collectively to distribute vast computational resources to the P2P network. This aggregate computing
power will open new revenue streams in areas that require high performance computing. We believe a
decentralized residential computing model can be a platform to advance enterprise and organizational high
computing initiatives. The immense capacity in the ServerCube decentralized model will be purposed for
Blockchain development, and any application which requires distributed high performance computing
power, such as Virtual Reality (VR) modeling, deep learning AI, and applications currently running on
supercomputers such as climate modeling.
Blockchain as a Service (BaaS)
will be rolled out first sometime in Q1 2020. ServerCube will provide OpenSource software to enable clients
to seamlessly interface to existing legacy operations via our encrypted middleware fabric. The infrastructure
and frameworks to quickly spin up cloud environments for development, testing and internal implementation
will be services offered. The ability to transact with both private and public Blockchains will provide
interoperability and seamless integrations.
Artificial Intelligence (AI) and Virtual Reality (VR) application development that require immense
computational capacity are areas ServerCube can provide software services and enterprise solutions at
substantially better price points than PaaS vendors in the current marketplace.
A few examples of high performance computing are Weather/Climate change simulations (CAM-SE), Material
Science (WL-LSMS), Biofuels (LAMMPS), Astrophysics (NRDF), Combustion (S3D), and Nuclear Energy (Denovo).
The ServerCube platform could provide advancements in healthcare and science providing access to the
relatively infinitesimal amount of the processing power required in these use cases. Specifically, any
compliance auditing requirement for clinical trial data and chain-of-custody requirement in pharmaceutical
drug supply can be managed at a greatly reduced cost, transparently, and immutably.

7. ServerCube Connect
ServerCube Connect is a dynamic middleware layer that shares encrypted data with counterparties outside of
the ServerCube P2P network. It connects the outside world, enabling transactions across public Blockchains
such as Ethereum, Bitcoin, or Dash; and private Blockchains such as Corda, Hyperledger, etc. In addition, fiat
currency transfers are supported on the network. The Connect layer offers several powerful features that enable build-out of
applications and transactions.
Smart Contracts - ServerCube Connect layer enables smart contracts to run independent from any Distributed Ledger
Technology (“DLT”), allowing for seamless transactions within existing protocols. The framework is interoperable with public
and private Blockchains as well, including institutional legacy systems in the financial services.

Transaction Builder and Crypto Router - The Connect layer provides transliteration and formatting of coin
transactions into Blockchain specific formats and then routes those transactions to the appropriate chain.
Additionally, verified transaction receipts are distributed to counterparties and documented in platform.

Surface Level API - Connect offers a message-based API for sending and receiving messages to the ServerCube
platform. Identity management standards supported include OAuth, biometrics, and AI security to expand
options available for identity management.

Multi-Factor Authentication and Blockchain Configuration - provides access to secrets stored in the key vault
to specific identities (users, oracles, regulatory, etc.) needed to execute secure coin transactions within the
private consortium. This includes cross platform interoperability to seamlessly transact with other Blockchain
networks and consortiums.

Runtime Environment Services - provides secure execution environments and abstracts away the underlying
authenticated identity in a secure environment. The runtime services are provided by a container that is
extensible for adding custom message, security and cryptographic features.

Privacy - ServerCube smart contracts confidentially execute transactions, encrypt and then write the results
to the Blockchain. The logic also limits the decryption of the results to only those parties involved in the
contract. This privacy model is agnostic to underlying Blockchains and allows for cipher diversity.

Multi-chain, multi-network support - A single transaction in a ServerCube smart contract supports the ability
to both write its results to a private Blockchain, and record a public record on a public network. With a single
in-bound transaction request, ServerCube can perform single or multi-chain operations within the same
transaction and return a single result. A full transaction context group contains each transaction’s proof and
receipt to provide a composite receipt and proof audit report.

Cross-chain workflow integrity - ServerCube smart contracts can trade and move assets across multiple
ledgers. The platform locks, creates, transfers, and burns assets across diverse Blockchains with transactional
integrity.

Ledger abstraction - The platform performs integration across Blockchain types using smart contracts as a
router and gateway across a mixture of networks. The Connect framework allows for extensive integration
logic between networks.

Blockchain “oracles” - Connect enables the creation of “oracles” that serve as agents to retrieve and provide
attested data inputs for public Blockchain applications. Examples of these are real time cryptocurrency pricing
data from exchanges or fiat pricing for settlements.


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