Learn about DeSci, science mining, the SXOR token, and how distributed computing is advancing real scientific research.
DeSci (Decentralized Science) uses blockchain and cryptocurrency to fund and accelerate scientific research. Learn how Solvexoria's SXOR token powers real science.
You don't need a $5,000 GPU rig to earn crypto. Learn how to earn SXOR cryptocurrency for free using just your existing computer browser.
Proof of Intelligence (PoI) is Solvexoria's consensus model where miners prove real scientific work instead of wasting energy on hash puzzles. Here's how it works.
Everything you need to know about the SXOR token — fixed 21M supply, how it's mined, how to trade on Bursa, prize pools, and why it's different from other cryptocurrencies.
Browser mining lets your computer contribute to real science in a background tab. No downloads, no hardware, no electricity cost beyond your normal usage.
Solvexoria's cancer research problem uses distributed computing to solve protein folding — a key to understanding how cancer cells form. Mine SXOR while advancing cancer research.
Solvexoria's Clean Water Pathogen Detection problem uses distributed computing to map waterborne disease patterns globally. 2 billion people lack clean water access — blockchain can help.
Unlike Bitcoin's carbon footprint, Solvexoria's mining produces real climate data. Every SXOR mined from the Carbon Capture Optimization problem advances climate science.
Complete step-by-step beginner guide to Solvexoria. How to create an account, pick a science problem, start mining, track earnings, and join the weekly prize leagues.
Science mining is the next evolution of cryptocurrency — where mining work produces real scientific value. In 2026, Solvexoria leads this movement with SXOR.
Parkinson's disease affects 10 million people. New research using distributed computing maps alpha-synuclein protein misfolding — a key step toward a treatment that could halt neurodegeneration.
ALS kills 80% of patients within 5 years. Distributed computing networks are now analyzing TDP-43 and SOD1 protein misfolding to find intervention points before symptoms appear.
Lung cancer kills 1.8 million people per year. Early detection raises 5-year survival from 6% to 61%. Distributed computing is building a blood-based biomarker atlas to catch it before symptoms appear.
55 million people have Alzheimer's. Recent amyloid drug approvals mark a turning point — but distributed computing is needed to map the full cascade and design better treatments.
From protein folding to cancer biomarkers — distributed computing networks are solving problems that would take supercomputers decades. Here's how idle computers worldwide are accelerating cures.
The Solvexoria network has completed over 114,000 computation chunks on pancreatic cancer protein mapping — identifying 47 candidate protein conformations for therapeutic targeting. Here's what was found.
Most computers sit idle for 80%+ of the day. Solvexoria lets you turn that idle time into SXOR cryptocurrency while running real scientific computations. No investment required.
Protein folding is how amino acid chains become functional biological machines — or toxic clumps that cause disease. This guide explains the science behind the computations that Solvexoria miners run.
Pharmaceutical companies spend more on marketing than research. Grant systems reject 80% of applications. DeSci and distributed computing offer a different model: fund science with compute, not committees.
Bitcoin mining consumes more electricity than many countries — with zero productive output. SXOR mining runs real scientific computations. Here's why proof-of-intelligence beats proof-of-work.
2 billion people lack access to safe drinking water. Distributed computing is building pathogen detection algorithms that can identify contamination before it causes disease outbreaks.
MS affects 2.8 million people worldwide. New research using distributed computing simulates myelin repair pathways — the key to halting disability progression in multiple sclerosis.
CFTR modulators transformed CF treatment for 90% of patients. But 10% have rare mutations with no approved therapy. Distributed computing maps folding behavior for all 2,000 CFTR variants.
Everything you need to know about earning SXOR on Solvexoria — from browser mining to the terminal client. Leagues, prizes, wallets, and how to maximize your earnings.
Pediatric ALL achieves 90% survival in wealthy countries — but drug resistance kills thousands annually, particularly in low-income regions. Distributed computing maps the gene expression signatures of resistant leukemia.
Big Pharma spends $250 billion per year on R&D, yet drug approval rates haven't improved in 30 years. DeSci networks distribute compute power and incentivize the public to solve disease. Which model wins?
SXOR has a 21 million hard cap backed by real scientific computation. No pre-mine, no inflation, no founders' allocation. Here's how the token economics work.
Air pollution kills more people than HIV, tuberculosis, and malaria combined. Source-tracking algorithms are being built using distributed computing to identify and target the worst emission sources.
Both Folding@Home and Solvexoria use distributed computing for science. But Solvexoria adds cryptocurrency earnings, more disease categories, a real-time marketplace, and blockchain verification. Here's the comparison.
Climate change is already killing 250,000 additional people per year through heat stress, disease, and food insecurity. Accurately modeling these health impacts requires distributed computing at global scale.