Transaction Throughput: What It Means for Crypto Speed and Scalability

When you send crypto, transaction throughput, the number of transactions a blockchain can handle per second. It’s not just a tech term—it’s what keeps your trades fast or makes you wait minutes for a simple swap. Think of it like a highway: if only five cars can pass through a toll booth every minute, you’re stuck in line. That’s what happens on blockchains with low throughput. High throughput means your trade clears in seconds, not minutes—or worse, hours.

Not all blockchains are built the same. Solana, a high-performance blockchain known for speed and low fees handles thousands of transactions per second, which is why DEXs like Raydium and DeDust run smoothly. Compare that to older networks like Ethereum before upgrades, where one congested NFT drop could freeze the whole network. Decentralized exchanges, platforms like DeDust, Raydium, and Mangata that let you trade without a middleman rely on this speed. If the underlying chain can’t move fast, even the best DEX feels slow and unreliable.

Low throughput isn’t just annoying—it’s risky. When trades get delayed, slippage grows, and front-running becomes easier. That’s why platforms like Mangata focus on no-gas trading and front-running protection: they’re trying to fix the broken parts of slow networks. Meanwhile, chains like TON and Sui are pushing new designs to boost throughput without sacrificing security. And when a platform like Bitsdaq dies, part of the reason is often that it couldn’t scale. Users left because trades took too long, fees spiked, and the experience felt broken.

Transaction throughput also affects airdrops and DeFi rewards. If a network is overloaded, claiming your tokens might fail. Liquidity mining becomes less attractive if your deposit takes 10 minutes to confirm. Even something as simple as checking your balance can feel sluggish. That’s why smart traders don’t just look at token price—they check the chain’s real-world speed.

What you’ll find below are real reviews of exchanges and tokens where transaction throughput made the difference. Some platforms succeeded because they built on fast chains. Others failed because they ignored it. You’ll see how DeDust on TON handles swaps faster than most, why Raydium works well on Solana, and why platforms like EtherMuim or Rokes Commons never stood a chance—they didn’t just scam users, they built on systems too slow to be useful.