496x
For anyone building or real-time AI agents, this level of latency reduction could be a game-changer.
Represents the entire graph as a sparse matrix . It translates complex traversals into parallelized linear algebra operations (matrix multiplication), allowing the CPU to process multiple paths simultaneously. Sample Post for "496x" If you are looking to share this update, Headline: Is Neo4j finally being challenged? 🚀 For anyone building or real-time AI agents, this
Uses "pointer chasing" to traverse nodes and edges. Each hop requires a separate memory lookup, which slows down significantly as the network grows. Sample Post for "496x" If you are looking
A new open-source player, , just dropped a bombshell: it’s 496x faster than Neo4j. A new open-source player, , just dropped a
496x faster alternative to Neo4j…(open-source) | Avi Chawla
While traditional Graph DBs "chase pointers" node-by-node (sequential and slow), FalkorDB treats your graph as a sparse matrix .
It processes thousands of paths at the same time instead of hopping through memory.
For anyone building or real-time AI agents, this level of latency reduction could be a game-changer.
Represents the entire graph as a sparse matrix . It translates complex traversals into parallelized linear algebra operations (matrix multiplication), allowing the CPU to process multiple paths simultaneously. Sample Post for "496x" If you are looking to share this update, Headline: Is Neo4j finally being challenged? 🚀
Uses "pointer chasing" to traverse nodes and edges. Each hop requires a separate memory lookup, which slows down significantly as the network grows.
A new open-source player, , just dropped a bombshell: it’s 496x faster than Neo4j.
496x faster alternative to Neo4j…(open-source) | Avi Chawla
While traditional Graph DBs "chase pointers" node-by-node (sequential and slow), FalkorDB treats your graph as a sparse matrix .
It processes thousands of paths at the same time instead of hopping through memory.