Topic: [ANN][PRE-ICO] Elige - Mining for medicine (Read 2276 times)
I look closely at the campaign activities to create useful products, fight disease
The idea to find new medicine through blockchain technology is very unique. Honestly I need to learn more to find out how it works. But it is an interesting project.
I agree this is an interesting idea! The problem of medicine is related to health and human life. Therefore, the origin and quality of drugs are important. In my opinion, mining drugs need the authorization of the authorities. I will continue to monitor the development of the project!
Hello, why is the customer service silent? Do you have payment for bugs? I found an error in your contract, if you send 1 ETH to your test contract 0xFe55fF1e192b0A4D50Ae7C3d3e4c171f3452A7CB, then tokens and doubled ether come. When will the bug be paid? I want to earn honestly without this fraud!
is there a roadshow plan about your project? this will really help your project to be recognized by many people 
Hi,
what is it going on with elige?
I see no activity.Has it stopped?
Regards.
what is it going on with elige?
I see no activity.Has it stopped?
Regards.
No communication from the team after the sale which was months ago. Site is still up but I think project is dead/scam. Never got my stakes for translating this thread. I hope everyone who participate in ICO will get the Full money back
Hi,
what is it going on with elige?
I see no activity.Has it stopped?
Regards.
what is it going on with elige?
I see no activity.Has it stopped?
Regards.
It looks solid project after reading how it is different than other similar projects plus the business model how the project will be managed. In introductory text there are quite interesting things which make the reader to dig in the project for more information and that is what I will do next.
Is this in any way connected to BOINC platform so I can choose the project to contribute to?
If the team gets to implement the project, then this will be a breakthrough in this area.
Is there any working prototype or beta version of the product?
Is there any working prototype or beta version of the product?
Good evening, Interesting enough project, you need to try to invest. I think it will. Thank you
Projects Based on Volunteer Computing
Here is a list of several projects based on distributed computations popular in the Internet.
Einstein@Home is a project created to check Einstein’s hypothesis on the gravity waves, means of distribution of gravity in the Universe. For that purpose, “heavy” space objects, such as neutron stars, black holes and pulsing stars are studied and compiled into a detailed atlas to understand, just how the gravity waves are distributed, if they exist at all, of course. Observations and studies within this project allow better understanding and confirming (or maybe confuting) of the general relativity theory, finding out the movement speed of the gravity waves — whether or not it is light speed, determining physical properties of these hypothetic waves. In addition, starting from 2009, a part of the project’s capacities, and, accordingly, a part of the volunteers’ computations is aimed at finding radio pulsars and other uncommon objects of the Universe.
Gerasim@Home is a Russian volunteer distributed computing project on the BOINC platform. The project started in test mode in February 2008. It is aimed at researching of the heuristic methods of modeling of splitting the parallel flowgraphs. As for the June 23, 2015, 1999 users (890 computers) from 62 countries were involved into the project, providing the performance of 1–5 teraflops.
SZTAKI Desktop Grid is a project organized by Hungarian specialists from SZTAKI — Számítástechnikai és Automatizálási Kutató Intézet (Scientific and research university of cybernetics and automatization of the Hungarian Academy of Sciences). It refers to the field of information theory and helps in studying the numerical system. It is aimed at finding the matrixes of up to 11 degree (that is, 11x11 elements), suitable as the base of numerical systems.
Asteroids@home is a project from the field of astronomy aimed at characterizing physical properties of asteroids (shape, spatial orientation, rotation period) using photometric data; storing the materials for researches in the field of nature and evolution of the asteroids in the Solar system; providing data on spatial orientation, shape and rotation period of the asteroids to determine alterations in their orbit using thermal emission (the Yarkovsky effect).
Cosmology@Home is a volunteer computing project based on the BOINC platform. It was launched by the academic department of Astronomy and Physics of the University of Illinois in Urbana-Champaign. As for the September 5, 2013, 55 957 users (106 909 computers) from 190 countries were involved into the project, providing the performance of 13, 04 teraflops. The Cosmology@Home project is aimed at comparing theoretical models of the Universe and contemporary astronomical and physical data and searching for the model which would describe our Universe in the best way basing on the results of modeling and observing the vestigial radiation.
Rosetta@Home is a volunteer computing project aimed at solving one of the biggest problems of molecular biology — calculation of the tertiary structure of proteins and their amino acid sequences. The results of recently finished project “Human Genome” revealed amino acids sequences of all the protides in human organism. Researches of this project may also help in projecting new, not yet existent protides. Although this project is mostly oriented at fundamental researches in the field of improving accuracy and surety of proteomics methods, Rosetta@home also helps applied researches in their combat against such diseases as cancer, malaria, Alzheimer disease, malignant anthrax and other genetic and viral diseases.
Folding@Home (F@H, FAH) — is a volunteer computing project for computer modeling of protide molecule folding. Aim of this project is to understand the technique and principles of biochemical process of creation (folding) and destruction (unfolding) of protides. This is required for combating such diseases as Alzheimer disease, Parkinson disease, diabetes, sclerosis. As a result of the volunteers’ computational help, this project had a lot of simulations, which served as a base for a great many intermediate science works. It is the largest of the distributed volunteer computing projects; the total performance of its systems can be compared with performance of the most powerful supercomputers in the world.
DrugDiscovery@Home is a Russian bio-medicine distributed computations project based on the BOINC platform. Its main aim is molecular dynamics, protide folding. Its secondary objective is screening large data bases of biologically active compounds. It is suggested that a part of the aims will be calculated basing on requests of various scientists, which will allow any scientist are scientific group to suggest aim for calculations.
Human Proteome Folding Project has become the first project of WCG. It is a program of the Human Biology Institution on creating a catalog of all the protides present in a human body and studying their functions. It is planned, that WCG will help to calculate the process of creating the new protides basing on the information contained in genes, and afterwards resulting specimens will be compared with 3D images of already known protides contained in a specialized data base.
The FightAIDS@Home project, which is aimed at developing the new medicine against AIDS, has become the second task of WCG. Earlier this project was an independent one, however, it was not very famous and had some considerable flaws in client software and design of its website. To correct the existing flaws and raise the project’s popularity, and also to let the scientific staff concentrate on the research part of the software, in November 2005 the project was relocated to the World Community Grid platform, which by that time was already running and well-functioning.
Just like the above mentioned projects, the Elige project suggests using computational capabilities of distributed network of miners to find new medicine, protides and other chemical compounds helpful for people and similar economically attractive calculations. Cryptocurrency miners use their vast computation capabilities to calculate unique but totally useless information. Our project will turn these capabilities to profit not only for the project participants, bur for the humanity as a whole.
https://medium.com/@elige/projects-based-on-volunteer-computing-6c0d3120a937
Here is a list of several projects based on distributed computations popular in the Internet.
Einstein@Home is a project created to check Einstein’s hypothesis on the gravity waves, means of distribution of gravity in the Universe. For that purpose, “heavy” space objects, such as neutron stars, black holes and pulsing stars are studied and compiled into a detailed atlas to understand, just how the gravity waves are distributed, if they exist at all, of course. Observations and studies within this project allow better understanding and confirming (or maybe confuting) of the general relativity theory, finding out the movement speed of the gravity waves — whether or not it is light speed, determining physical properties of these hypothetic waves. In addition, starting from 2009, a part of the project’s capacities, and, accordingly, a part of the volunteers’ computations is aimed at finding radio pulsars and other uncommon objects of the Universe.
Gerasim@Home is a Russian volunteer distributed computing project on the BOINC platform. The project started in test mode in February 2008. It is aimed at researching of the heuristic methods of modeling of splitting the parallel flowgraphs. As for the June 23, 2015, 1999 users (890 computers) from 62 countries were involved into the project, providing the performance of 1–5 teraflops.
SZTAKI Desktop Grid is a project organized by Hungarian specialists from SZTAKI — Számítástechnikai és Automatizálási Kutató Intézet (Scientific and research university of cybernetics and automatization of the Hungarian Academy of Sciences). It refers to the field of information theory and helps in studying the numerical system. It is aimed at finding the matrixes of up to 11 degree (that is, 11x11 elements), suitable as the base of numerical systems.
Asteroids@home is a project from the field of astronomy aimed at characterizing physical properties of asteroids (shape, spatial orientation, rotation period) using photometric data; storing the materials for researches in the field of nature and evolution of the asteroids in the Solar system; providing data on spatial orientation, shape and rotation period of the asteroids to determine alterations in their orbit using thermal emission (the Yarkovsky effect).
Cosmology@Home is a volunteer computing project based on the BOINC platform. It was launched by the academic department of Astronomy and Physics of the University of Illinois in Urbana-Champaign. As for the September 5, 2013, 55 957 users (106 909 computers) from 190 countries were involved into the project, providing the performance of 13, 04 teraflops. The Cosmology@Home project is aimed at comparing theoretical models of the Universe and contemporary astronomical and physical data and searching for the model which would describe our Universe in the best way basing on the results of modeling and observing the vestigial radiation.
Rosetta@Home is a volunteer computing project aimed at solving one of the biggest problems of molecular biology — calculation of the tertiary structure of proteins and their amino acid sequences. The results of recently finished project “Human Genome” revealed amino acids sequences of all the protides in human organism. Researches of this project may also help in projecting new, not yet existent protides. Although this project is mostly oriented at fundamental researches in the field of improving accuracy and surety of proteomics methods, Rosetta@home also helps applied researches in their combat against such diseases as cancer, malaria, Alzheimer disease, malignant anthrax and other genetic and viral diseases.
Folding@Home (F@H, FAH) — is a volunteer computing project for computer modeling of protide molecule folding. Aim of this project is to understand the technique and principles of biochemical process of creation (folding) and destruction (unfolding) of protides. This is required for combating such diseases as Alzheimer disease, Parkinson disease, diabetes, sclerosis. As a result of the volunteers’ computational help, this project had a lot of simulations, which served as a base for a great many intermediate science works. It is the largest of the distributed volunteer computing projects; the total performance of its systems can be compared with performance of the most powerful supercomputers in the world.
DrugDiscovery@Home is a Russian bio-medicine distributed computations project based on the BOINC platform. Its main aim is molecular dynamics, protide folding. Its secondary objective is screening large data bases of biologically active compounds. It is suggested that a part of the aims will be calculated basing on requests of various scientists, which will allow any scientist are scientific group to suggest aim for calculations.
Human Proteome Folding Project has become the first project of WCG. It is a program of the Human Biology Institution on creating a catalog of all the protides present in a human body and studying their functions. It is planned, that WCG will help to calculate the process of creating the new protides basing on the information contained in genes, and afterwards resulting specimens will be compared with 3D images of already known protides contained in a specialized data base.
The FightAIDS@Home project, which is aimed at developing the new medicine against AIDS, has become the second task of WCG. Earlier this project was an independent one, however, it was not very famous and had some considerable flaws in client software and design of its website. To correct the existing flaws and raise the project’s popularity, and also to let the scientific staff concentrate on the research part of the software, in November 2005 the project was relocated to the World Community Grid platform, which by that time was already running and well-functioning.
Just like the above mentioned projects, the Elige project suggests using computational capabilities of distributed network of miners to find new medicine, protides and other chemical compounds helpful for people and similar economically attractive calculations. Cryptocurrency miners use their vast computation capabilities to calculate unique but totally useless information. Our project will turn these capabilities to profit not only for the project participants, bur for the humanity as a whole.
https://medium.com/@elige/projects-based-on-volunteer-computing-6c0d3120a937
I'm just reading the white paper to understand the project more.
A team with previous experience in BOINC, this project could really be a great success!
Wish you good luck for the upcomming Pre-ICO
A team with previous experience in BOINC, this project could really be a great success!
Wish you good luck for the upcomming Pre-ICO
The idea to find new medicine through blockchain technology is very unique. Honestly I need to learn more to find out how it works. But it is an interesting project.
The project is supported by a team that looks solid enough and also a clear and easy to understand roadmap, success will be achieved.
Where and when "Mining" for medicine ?
People should like this project.
Since it have a big and awesome purpose to use the mining ability to be dedicated for the healthcare.
With it surely will help many people with illness.
Since it have a big and awesome purpose to use the mining ability to be dedicated for the healthcare.
With it surely will help many people with illness.
Great purpose from this project to suggests using the computational capabilities of the sub allocated mining networks for finding new types of medicine. Hope this project will be success.
Scheme of the Projects Based on Volunteer Computing
Imagine this: in 5–10 years your kid comes up to you and says: “Dad (Mom), yesterday I saw a program on the TV about a scary disease from the past called AIDS (cancer, influenza — you name it). And now we can cure it! And people not get them anymore!” And you answer: “I know, right? I participated in the development of the cure”. Sounds like a fantasy? Well, it’s not one! Even now, every human in the world can participate in the development of a great many of science projects. This is possible thanks to volunteer distributed calculations.
https://medium.com/@elige/scheme-of-the-projects-based-on-volunteer-computing-cc78a9628923
Imagine this: in 5–10 years your kid comes up to you and says: “Dad (Mom), yesterday I saw a program on the TV about a scary disease from the past called AIDS (cancer, influenza — you name it). And now we can cure it! And people not get them anymore!” And you answer: “I know, right? I participated in the development of the cure”. Sounds like a fantasy? Well, it’s not one! Even now, every human in the world can participate in the development of a great many of science projects. This is possible thanks to volunteer distributed calculations.
https://medium.com/@elige/scheme-of-the-projects-based-on-volunteer-computing-cc78a9628923
Hi guys,
interesting project. You write: After the Elige.re platform receives the relevant data, the solution found will be partially or completely blocked by a smart contract for a period of 1 year and offered to interested pharmacological companies and corporations. What do you mean by suitable data? Does this apply to the miners or is it data for processing?
interesting project. You write: After the Elige.re platform receives the relevant data, the solution found will be partially or completely blocked by a smart contract for a period of 1 year and offered to interested pharmacological companies and corporations. What do you mean by suitable data? Does this apply to the miners or is it data for processing?
No updates from the project?
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