It's pretty impressive, just note (emphasis added): > At Liquid AI, we take an open-science approach. We have and will continue to contribute to the advancement of the AI field by openly publishing our findings and…
That might not work; I recently disassembled a mini PC with an Intel N95, and the wifi chip was soldered and integrated into the mainboard. Now, if the SSD was NVMe, I suppose you could use that for PCIe (possibly with…
You're still sending packets to the same IP address. QUIC can't obfuscate that itself, all packets have to get routed over IP in the end. The paper relies on very little but that fact. If one wanted to block VPN…
Not if the network blocks QUIC in its entirety to force clients to fallback to HTTP1. I'm pretty sure the network I'm currently on does this. But, it looks like the type of fingerprinting in the article utilizes the…
You can set HF_HOME to move the folder it downloads those to elsewhere (or well, the HF transformers/diffusers stuff at least), iirc.
It's pretty impressive, just note (emphasis added): > At Liquid AI, we take an open-science approach. We have and will continue to contribute to the advancement of the AI field by openly publishing our findings and…
That might not work; I recently disassembled a mini PC with an Intel N95, and the wifi chip was soldered and integrated into the mainboard. Now, if the SSD was NVMe, I suppose you could use that for PCIe (possibly with…
You're still sending packets to the same IP address. QUIC can't obfuscate that itself, all packets have to get routed over IP in the end. The paper relies on very little but that fact. If one wanted to block VPN…
Not if the network blocks QUIC in its entirety to force clients to fallback to HTTP1. I'm pretty sure the network I'm currently on does this. But, it looks like the type of fingerprinting in the article utilizes the…
You can set HF_HOME to move the folder it downloads those to elsewhere (or well, the HF transformers/diffusers stuff at least), iirc.