As a seasoned analyst with a background in both space exploration and blockchain technology, I find myself intrigued by the potential convergence of these two seemingly disparate fields. The prospect of Martian colonists conducting Bitcoin transactions or trading NFTs is not just a fascinating thought experiment, but a practical challenge that requires innovative solutions.
On Mars, you won’t find any automated teller machines (ATMs). At the moment, the Martian landscape lacks the necessary infrastructure for financial transactions. This could present difficulties for future settlers who aspire to purchase pizza using Bitcoin (BTC) or exchange NFTs (non-fungible tokens) with fellow enthusiasts back on Earth.
A potential answer to this issue could be coming from the latest studies on neuromorphic computing.
In simpler terms, when trying to communicate with potential alien life forms, it’s a power-hungry task that often takes minutes to complete even under ideal conditions. As we venture to Mars in the future, the computers on our spacecraft will struggle to keep up with Earth-based computers and servers due to the vast distance and delay in real-time communication.
When Martian colonists transmit or receive information, there may be delays as long as around 22 minutes due to Mars’ varying distance from Earth. This delay is influenced by where the two planets are located in their respective orbits.
Although 44 minutes may seem relatively short, it’s important to consider factors such as signal deterioration, potential radio frequency interference, and data spoilage, which can complicate the process.
Neuromorphic computing
On Earth, the tech realm largely relies on cloud computing. A vast array of interconnected devices, ranging from billions of iPhones to the mightiest supercomputers, all make use of distant data processing or computation in one way or another.
Neuromorphic computers are constructed to tackle complex data issues by employing real-time pattern identification, which is similar to how our brains operate. Instead of relying on a conventional central processing unit (CPU), they process information through a network of artificial neurons that store and process data directly in memory, resulting in exceptionally quick response times.
Neuromorphic computer chips are ideally suited for scenarios requiring immediate data analysis right at the source, such as deep-sea research stations, space exploration, and potentially other celestial bodies. Here, the hardware on the device itself is utilized for analysis, bypassing the need for external processing.
Regrettably, a highly anticipated form of neuromorphic computer chips, known as self-compliant chips, incorporate materials that may exhibit inconsistency from one chip to another. Despite their potential, this inconsistency sometimes leads these specific chips to release their data in an erratic manner.
A group of scientists based in South Korea have made significant progress in the design of these chips, overcoming a previous hurdle as per their findings. With continued advancements, their neuromorphic computing chip structure might pave the way for a groundbreaking shift in edge computing technology.
Blockchain on Mars
Performing a blockchain transaction on our planet seems straightforward for users, but the complex technology behind it, known as decentralized computing, involves numerous nodes functioning together. Many contemporary computers have the potential to act as these nodes, and in certain instances, cryptocurrencies can even be mined using personal computers.
However, if all the remote infrastructure is stripped away — including Earthbound energy sources — it would quickly become impossible to mine cryptocurrency or transact on the blockchain. Recreating this infrastructure on Mars, as it exists on Earth in 2024, could potentially take decades or longer.
According to Elon Musk, humans will arrive on Mars long before that period. And, while trading cryptocurrency might not be their first priority, they’ll eventually need to engage in trusted transactions with Earth.
Neuromorphic computers are specifically designed for these scenarios. They can work alongside conventional computers, allowing Mars settlers to perform edge computing tasks that typically necessitate immediate access to distant resources and sophisticated infrastructure, but without it.
In essence, advanced computing devices equipped with autonomous, neuron-like processing units might offer instant automation and data management for a flexible Mars-based blockchain system. Such technology could enable settlers to transfer their Earth-born blockchains seamlessly to Mars.
If we didn’t have neuromorphic edge computing, every blockchain transaction would require initiation on Mars, processing here on Earth, confirmation of the ledger back on Mars, and then another confirmation here on Earth. This lengthy process could make each individual transaction take several days to travel between nodes.
Neuromorphic computers may not eliminate delays in communication, as it can take up to 44 minutes for transmissions between Mars and Earth to be processed, even with advancements in technology yet to come.
However, thanks to neuromorphic computer chips doing most of the work, these transactions can occur in quick succession, bundled together as a series of multiple transactions.
In other words, it could become possible to synchronize both the updates and prices every hour across all interplanetary cryptocurrency markets.
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2024-10-25 21:52