Bliss Chapman

Okay. And just to be clear, I mean, the labs do this, what's called spike sorting. Usually once you have these like broadband, you know, the fully digitized signals, and then you run...

a bunch of different set of algorithms to kind of tease apart it's just all of this for us is done on the device on the device in a very low power custom you know built asic uh digital processing unit highly heat constrained highly heat constrained and the processing time from signal going in and giving you the output is less than a microsecond which is uh you know a very very short amount of time oh yeah so the latency has to be super short correct

a bunch of different set of algorithms to kind of tease apart it's just all of this for us is done on the device on the device in a very low power custom you know built asic uh digital processing unit highly heat constrained highly heat constrained and the processing time from signal going in and giving you the output is less than a microsecond which is uh you know a very very short amount of time oh yeah so the latency has to be super short correct

a bunch of different set of algorithms to kind of tease apart it's just all of this for us is done on the device on the device in a very low power custom you know built asic uh digital processing unit highly heat constrained highly heat constrained and the processing time from signal going in and giving you the output is less than a microsecond which is uh you know a very very short amount of time oh yeah so the latency has to be super short correct

Oh, wow. Oh, that's a pain in the ass. Yeah, latency is this huge, huge thing that you have to deal with. Right now, the biggest source of latency comes from the Bluetooth, the way in which they're packetized. And we bin them in 15 millisecond time window. Oh, interesting.

Oh, wow. Oh, that's a pain in the ass. Yeah, latency is this huge, huge thing that you have to deal with. Right now, the biggest source of latency comes from the Bluetooth, the way in which they're packetized. And we bin them in 15 millisecond time window. Oh, interesting.

Oh, wow. Oh, that's a pain in the ass. Yeah, latency is this huge, huge thing that you have to deal with. Right now, the biggest source of latency comes from the Bluetooth, the way in which they're packetized. And we bin them in 15 millisecond time window. Oh, interesting.

Yeah, Bluetooth is definitely not our final... wireless communication protocol that we want to get to.

Yeah, Bluetooth is definitely not our final... wireless communication protocol that we want to get to.

Yeah, Bluetooth is definitely not our final... wireless communication protocol that we want to get to.

Yeah, the primary motivation for choosing Bluetooth is that, I mean, everything has Bluetooth. All right, so you can talk to any device. Interoperability is just absolutely essential, especially in this early phase. And in many ways, if you can access a phone or a computer, you can do anything.

Yeah, the primary motivation for choosing Bluetooth is that, I mean, everything has Bluetooth. All right, so you can talk to any device. Interoperability is just absolutely essential, especially in this early phase. And in many ways, if you can access a phone or a computer, you can do anything.

Yeah, the primary motivation for choosing Bluetooth is that, I mean, everything has Bluetooth. All right, so you can talk to any device. Interoperability is just absolutely essential, especially in this early phase. And in many ways, if you can access a phone or a computer, you can do anything.

So we have what's called a patient registry that people can sign up to hear more about the updates. And that was a route to which Nolan applied. And the process is that once the application comes in, it contains some medical records. And we, you know, based on their medical eligibility that there's a lot of different inclusion, exclusion criteria for them to meet.

So we have what's called a patient registry that people can sign up to hear more about the updates. And that was a route to which Nolan applied. And the process is that once the application comes in, it contains some medical records. And we, you know, based on their medical eligibility that there's a lot of different inclusion, exclusion criteria for them to meet.

So we have what's called a patient registry that people can sign up to hear more about the updates. And that was a route to which Nolan applied. And the process is that once the application comes in, it contains some medical records. And we, you know, based on their medical eligibility that there's a lot of different inclusion, exclusion criteria for them to meet.

And we go through a pre-screening interview process with someone from Neuralink. And at some point we also go out to their homes to, do a BCI home audit because one of the most kind of revolutionary part about having this in one system that is completely wireless is that you can use it at home.

And we go through a pre-screening interview process with someone from Neuralink. And at some point we also go out to their homes to, do a BCI home audit because one of the most kind of revolutionary part about having this in one system that is completely wireless is that you can use it at home.

And we go through a pre-screening interview process with someone from Neuralink. And at some point we also go out to their homes to, do a BCI home audit because one of the most kind of revolutionary part about having this in one system that is completely wireless is that you can use it at home.

You don't actually have to go to the lab and go to the clinic to get connectorized to these specialized equipment that you can't take home with you. So that's one of the key elements of when we're designing the system that we wanted to keep in mind. People hopefully would want to be able to use this every day in the comfort of their home.