KELTA is a data center built to empower scientific researchers, scholars, and cryptocurrency miners by provid-
ing industrial grade computing capabilities at affordable rates.
KELTA is a member of the AGEM DATA family, a group of companies specializing in the provision of computing
power. AGEM DATA is the owner of the data center building, while KELTA Capital, S.R.O.. is its operator as well as
the vendor of the KLT token. KELTA was formed as a substantive entity exclusively for the purpose of the ICO.
In today’s world, science has advanced to such a point that home computers are just not capable of making
the calculations necessary for even the most basic of scientific research. Cryptocurrency mining, a process
which also requires advanced calculations and large amounts of computing power, is impossible for people
using home computers.
Until recently, advanced research calculations have been out of reach to everyone except scientists with ac-
cess to large supercomputers. Cloud computing has recently become a popular alternative. Cloud computing
platforms, however, are difficult to maneuver for those scientists who do not specialize in network systems.
A streamlined, user-friendly, platform offered by a large data center may just be the solution. KELTA, a multi-
functional data center located in Slovakia, is preparing to offer users just such a platform.
Together with its parent company, AGEM DATA, KELTA has already constructed a state-of-the art 2700
square-meter facility in Bratislava, Slovakia. The data center features tier-3 level security, a liquid immersion
cooling system, and two seperate electrical connections together supplying the facility with 20 megawatts of
electrical power at a reasonable price.
Information about KELTA’s relationship with AGEM DATA can be found here.
KELTA is holding an Initial Coin Offering (ICO) in order to raise funds to purchase the necessary hardware (GPUs)
to make the data center fully operational, and to develop a mobile and web application for easy access to data
center services. Token holders will be able to access one watt of data center capacity per token held, in order to
perform scientific research or other computations, through the KELTA mobile and web applications.
Please note — KELTA token holders will only begin to be able to use their tokens AFTER the data center facili-
ties have been completed and the application has been developed. Potential token holders are highly encour-
aged to familiarize themselves with the risks involved in token purchase and ownership.
Scientific researchers, cryptocurrency miners, and other types of users may gain access to the KELTA data
center by purchasing the KLT token. This token is a utility token that enables users to use the KELTA platform.
The KLT token does not represent a stake in the company, the right to decisions regarding KELTA’s direction, or
any right to dividends, profits, or investment revenue.
The KLT token is an ERC20 standard utility token emitted on the Ethereum blockchain network. Ownership of
one token gives the token holder unlimited access to one watt of the KELTA data center’s capacity. The amount
of watts to which the user has access is equivalent to the number of KLT tokens he or she possesses.
KELTA data center users will enjoy the following benefits from KLT token ownership:
• Continuous access to 1 watt of data center capacity over the course of 50 years.
• Access to the streamlined KELTA app (and web portal) which makes it easy to select the cryptocurrency to
mine, and to begin mining - even with a limited understanding of blockchain theory.
• Membership in an exclusive community of cryptocurrency and blockchain experts, supported by the tools
provided on the KELTA website.
• Ability to rent out the tokens to other platform users. The minimum rental period is one year.
It must be clearly understood that access to computer capacity does not imply ownership of that computing
capacity, the equipment involved, or any administrative or executive role for the token holder. Token holders
will not be able to access their allotted computing power until after the completed assembly of the hardware
and development of the software.
ing industrial grade computing capabilities at affordable rates.
KELTA is a member of the AGEM DATA family, a group of companies specializing in the provision of computing
power. AGEM DATA is the owner of the data center building, while KELTA Capital, S.R.O.. is its operator as well as
the vendor of the KLT token. KELTA was formed as a substantive entity exclusively for the purpose of the ICO.
In today’s world, science has advanced to such a point that home computers are just not capable of making
the calculations necessary for even the most basic of scientific research. Cryptocurrency mining, a process
which also requires advanced calculations and large amounts of computing power, is impossible for people
using home computers.
Until recently, advanced research calculations have been out of reach to everyone except scientists with ac-
cess to large supercomputers. Cloud computing has recently become a popular alternative. Cloud computing
platforms, however, are difficult to maneuver for those scientists who do not specialize in network systems.
A streamlined, user-friendly, platform offered by a large data center may just be the solution. KELTA, a multi-
functional data center located in Slovakia, is preparing to offer users just such a platform.
Together with its parent company, AGEM DATA, KELTA has already constructed a state-of-the art 2700
square-meter facility in Bratislava, Slovakia. The data center features tier-3 level security, a liquid immersion
cooling system, and two seperate electrical connections together supplying the facility with 20 megawatts of
electrical power at a reasonable price.
Information about KELTA’s relationship with AGEM DATA can be found here.
KELTA is holding an Initial Coin Offering (ICO) in order to raise funds to purchase the necessary hardware (GPUs)
to make the data center fully operational, and to develop a mobile and web application for easy access to data
center services. Token holders will be able to access one watt of data center capacity per token held, in order to
perform scientific research or other computations, through the KELTA mobile and web applications.
Please note — KELTA token holders will only begin to be able to use their tokens AFTER the data center facili-
ties have been completed and the application has been developed. Potential token holders are highly encour-
aged to familiarize themselves with the risks involved in token purchase and ownership.
Scientific researchers, cryptocurrency miners, and other types of users may gain access to the KELTA data
center by purchasing the KLT token. This token is a utility token that enables users to use the KELTA platform.
The KLT token does not represent a stake in the company, the right to decisions regarding KELTA’s direction, or
any right to dividends, profits, or investment revenue.
The KLT token is an ERC20 standard utility token emitted on the Ethereum blockchain network. Ownership of
one token gives the token holder unlimited access to one watt of the KELTA data center’s capacity. The amount
of watts to which the user has access is equivalent to the number of KLT tokens he or she possesses.
KELTA data center users will enjoy the following benefits from KLT token ownership:
• Continuous access to 1 watt of data center capacity over the course of 50 years.
• Access to the streamlined KELTA app (and web portal) which makes it easy to select the cryptocurrency to
mine, and to begin mining - even with a limited understanding of blockchain theory.
• Membership in an exclusive community of cryptocurrency and blockchain experts, supported by the tools
provided on the KELTA website.
• Ability to rent out the tokens to other platform users. The minimum rental period is one year.
It must be clearly understood that access to computer capacity does not imply ownership of that computing
capacity, the equipment involved, or any administrative or executive role for the token holder. Token holders
will not be able to access their allotted computing power until after the completed assembly of the hardware
and development of the software.
A total of 12,500,000 KLT will be issued. During the token sale, 10,000,000 KLT will be available for purchase.
Datacenters have three major needs. Power, cooling, and a high bandwidth connection to the ‘backbone’ of
the internet. All three of these are potential bottlenecks, with the first two being the most important.
High load tasks such as cryptocurrency mining use a lot of electricity, and, to maximize the returns, it is most
efficient to use specially designed and constructed architectures found in data centers. Cryptocurrency min-
ing using non-specialized equipment can easily cost more in electricity use than is made in currency mined.
Microprocessors are not 100 percent efficient and under a load that can give off massive amounts of heat.
Keeping the processors cool is paramount as overheating could permanently damage the circuits.
It is for these reasons that data centers are often built in areas with two things: cheap electricity and a cool
climate. This is one of the reasons that major data center construction has been taking place in Northern Eu-
rope. The well trained populace and the stable environment of the EU are also contributing factors to this rush
to build. However, there is a downside: the cost of operation in these countries is very high.
With Slovakia, KELTA found the best of both worlds. Slovakia has reasonably priced electricity, the stability that
comes with being located within the EU, access to advanced internet backbone services, and a well trained
but more reasonably priced tech community.
The remaining upside of locating in the far north is the climate. However, KELTA’s liquid immersion cooling
Datacenters have three major needs. Power, cooling, and a high bandwidth connection to the ‘backbone’ of
the internet. All three of these are potential bottlenecks, with the first two being the most important.
High load tasks such as cryptocurrency mining use a lot of electricity, and, to maximize the returns, it is most
efficient to use specially designed and constructed architectures found in data centers. Cryptocurrency min-
ing using non-specialized equipment can easily cost more in electricity use than is made in currency mined.
Microprocessors are not 100 percent efficient and under a load that can give off massive amounts of heat.
Keeping the processors cool is paramount as overheating could permanently damage the circuits.
It is for these reasons that data centers are often built in areas with two things: cheap electricity and a cool
climate. This is one of the reasons that major data center construction has been taking place in Northern Eu-
rope. The well trained populace and the stable environment of the EU are also contributing factors to this rush
to build. However, there is a downside: the cost of operation in these countries is very high.
With Slovakia, KELTA found the best of both worlds. Slovakia has reasonably priced electricity, the stability that
comes with being located within the EU, access to advanced internet backbone services, and a well trained
but more reasonably priced tech community.
The remaining upside of locating in the far north is the climate. However, KELTA’s liquid immersion cooling
solves this problem.
The KELTA data center employs total liquid immersion cooling, a highly cost-efficient technology that eliminates
moving parts like fans, substantially reducing the amount of energy required to cool IT components.
Liquid immersion cooling is carried out by exposing components directly to a dielectric liquid coolant. The
coolant utilized by KELTA has a heat capacity 1000 times higher than an equal volume of air. KELTA uses its own,
patented, “directed flow” technology, which circulates the fluid through a sealed server chassis. The coolant
flows constantly through the system, maintaining optimal stability and reducing the amount of power needed to
moving parts like fans, substantially reducing the amount of energy required to cool IT components.
Liquid immersion cooling is carried out by exposing components directly to a dielectric liquid coolant. The
coolant utilized by KELTA has a heat capacity 1000 times higher than an equal volume of air. KELTA uses its own,
patented, “directed flow” technology, which circulates the fluid through a sealed server chassis. The coolant
flows constantly through the system, maintaining optimal stability and reducing the amount of power needed to
cool down the components.
In determining which liquid coolant to use, the team did a lot of experimentation and research. They tried out
several types of fluids, and were led to realize that the most essential problem that needed to be solved was the
rate at which the fluid evaporates.
By gradual fluid replacement, it was found that fairly decent results could be achieved with a methoxyheptaflu-
oropropane fluid. In the end, however, the KELTA team determined that the best results can be achieved with the
use of synthetic oils - polyalphaolefin lubricants - which are produced during the refining process of crude oil.
Unlike water, the liquid coolant utilized by KELTA does not carry an electrical charge, and is completely safe to
be used with any electronic component. Since all components are immersed in fluid, they are isolated from the
outside environment. This means that they can be operated anywhere and that their lifespans are extended sub-
stantially. As the heat is transferred into a liquid, and not into air, it is easy to transport and to recycle.
The KELTA system has no fans, and there are no moving parts within the chassis. The only moving within the KEL-
TA data center are the central pumps, with direct the movement of the liquid coolant. These pumps are located in
the mechanical room, apart from the rest of the system. The liquid coolant is pumped through the server chassis
to remove heat from all its internal components. The heat is then carried out within the liquid.
The warm liquid flows to a heat exchanger, where the temperature is reduced. The cooled down liquid is then
pumped back through the data center and . This actually is quite similar to the central heating system in a pri-
vate home. The “Cool” liquid that is used by KELTA reaches maximum temperatures of 45 degrees celsius, so the
several types of fluids, and were led to realize that the most essential problem that needed to be solved was the
rate at which the fluid evaporates.
By gradual fluid replacement, it was found that fairly decent results could be achieved with a methoxyheptaflu-
oropropane fluid. In the end, however, the KELTA team determined that the best results can be achieved with the
use of synthetic oils - polyalphaolefin lubricants - which are produced during the refining process of crude oil.
Unlike water, the liquid coolant utilized by KELTA does not carry an electrical charge, and is completely safe to
be used with any electronic component. Since all components are immersed in fluid, they are isolated from the
outside environment. This means that they can be operated anywhere and that their lifespans are extended sub-
stantially. As the heat is transferred into a liquid, and not into air, it is easy to transport and to recycle.
The KELTA system has no fans, and there are no moving parts within the chassis. The only moving within the KEL-
TA data center are the central pumps, with direct the movement of the liquid coolant. These pumps are located in
the mechanical room, apart from the rest of the system. The liquid coolant is pumped through the server chassis
to remove heat from all its internal components. The heat is then carried out within the liquid.
The warm liquid flows to a heat exchanger, where the temperature is reduced. The cooled down liquid is then
pumped back through the data center and . This actually is quite similar to the central heating system in a pri-
vate home. The “Cool” liquid that is used by KELTA reaches maximum temperatures of 45 degrees celsius, so the
heat exchanger is a simple fan-coil system.
The KELTA team has determined that the most appropriate means by which to distribute the KLT token is through an Initial
Coin Offering (ICO). Tokens will be available for sale for 57 days, starting March 5th, 2018 and ending April 30th, 2018
During the token sale, there will be a soft cap set at 2,000,000 KLT tokens. The hard cap is 10,000,000 tokens.
Total tokens issued:
• 12,500,000 KLT
Basic distribution:
• 10,000,000 KLT — Available for purchase during the token sale
• 250,000 — Bounty + Referral program
• 312,500 — Advisors
• 625,000 — Team
• 625,000 — Founders
• 687,500 — Recovery fund
ICO launch: March 5th, 2018
• Pre-sale — 0.00495 ETH
• Week 1,2 — 0.00565 ETH
• Week 3,4 — 0.00595 ETH
• Week 5,6 — 0.00625 ETH
• Week 7 — 0.00655 ETH
ICO end: April 30th, 2018
Coin Offering (ICO). Tokens will be available for sale for 57 days, starting March 5th, 2018 and ending April 30th, 2018
During the token sale, there will be a soft cap set at 2,000,000 KLT tokens. The hard cap is 10,000,000 tokens.
Total tokens issued:
• 12,500,000 KLT
Basic distribution:
• 10,000,000 KLT — Available for purchase during the token sale
• 250,000 — Bounty + Referral program
• 312,500 — Advisors
• 625,000 — Team
• 625,000 — Founders
• 687,500 — Recovery fund
ICO launch: March 5th, 2018
• Pre-sale — 0.00495 ETH
• Week 1,2 — 0.00565 ETH
• Week 3,4 — 0.00595 ETH
• Week 5,6 — 0.00625 ETH
• Week 7 — 0.00655 ETH
ICO end: April 30th, 2018
KLT can be acquired in exchange for ETH or other cryptocurrencies introduced on the official website. Transfers
can be made using ETH wallet.
Participants in the ICO are invited to deposit funds into their personal accounts. Only when the funds has been
deposited into these accounts can it be used to acquire KLT.
Accounts on the official website for the token sale will become accessible several days before the ICO launch.
The accounts can be accessed through a web-portal or with a mobile application. Accounts will be protected
from unauthorized access by a two-factor authentication system. No tokens can be purchased until the official
start date for the token sale, unless the token purchaser is a participant of the pre-sale.
As soon as the system architecture is completed, as per the white paper’s roadmap, the funds received during
the token pre-sale will be released to the KELTA team.
Upon the end of the token sale, purchase of tokens will no longer be possible. Approximately on May 7th, 2018,
tokens will be issued to participants. As soon as the tokens are issued, they may be transferred to the owner’s
personal account on the KELTA website. At this point, the token’s full functionality will be enabled - token holders
may initiate cryptocurrency mining or other computational operations, or they may rent out their tokens and
computing capacity.
can be made using ETH wallet.
Participants in the ICO are invited to deposit funds into their personal accounts. Only when the funds has been
deposited into these accounts can it be used to acquire KLT.
Accounts on the official website for the token sale will become accessible several days before the ICO launch.
The accounts can be accessed through a web-portal or with a mobile application. Accounts will be protected
from unauthorized access by a two-factor authentication system. No tokens can be purchased until the official
start date for the token sale, unless the token purchaser is a participant of the pre-sale.
As soon as the system architecture is completed, as per the white paper’s roadmap, the funds received during
the token pre-sale will be released to the KELTA team.
Upon the end of the token sale, purchase of tokens will no longer be possible. Approximately on May 7th, 2018,
tokens will be issued to participants. As soon as the tokens are issued, they may be transferred to the owner’s
personal account on the KELTA website. At this point, the token’s full functionality will be enabled - token holders
may initiate cryptocurrency mining or other computational operations, or they may rent out their tokens and
computing capacity.
Roadmap
October 2017:
ICO Preparation
December 2017:
Presentation Release
January, 2018:
White paper published on the website
March 5th, 2018:
Pre-sale launch
March 12th, 2018:
General token sale
April 9th, 2018:
Launch of the mobile application
April 30, 2018:
Token sale Completed
May 7th, 2018:
Token distribution to token holders
June 11th, 2018:
Projected construction — 2 MW
July 30th, 2018:
Projected construction — 3 MW
August 28th, 2018:
Projected construction — 5 MW
ICO Preparation
December 2017:
Presentation Release
January, 2018:
White paper published on the website
March 5th, 2018:
Pre-sale launch
March 12th, 2018:
General token sale
April 9th, 2018:
Launch of the mobile application
April 30, 2018:
Token sale Completed
May 7th, 2018:
Token distribution to token holders
June 11th, 2018:
Projected construction — 2 MW
July 30th, 2018:
Projected construction — 3 MW
August 28th, 2018:
Projected construction — 5 MW
For more information, visit;
Bitcointalk ANN Link https://bitcointalk.org/index.php?topic=2899199
Website : https://kelta.com/
Telegram Link https://t.me/joinchat/GbiywRFFNgDPFBKF-vbhYQ
Website : https://kelta.com/
Telegram Link https://t.me/joinchat/GbiywRFFNgDPFBKF-vbhYQ
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