 So here we have a very low-power Wi-Fi solution here at the Atmel. So what is this? This is SAMW25 again example of a fully self-contained module with crypto authentication for the application space and key management with a full SAMD21 Cortex-M0 plus MCU world's smallest ABGN Wi-Fi it's only a 3.1 by 3.1 millimeter square world's lowest power for active current and leakage current for battery-powered applications. World's lowest power Wi-Fi. World's lowest power Wi-Fi. It's combined with our SAMD21. The whole SAMD21 is available for application development. The Wi-Fi chip itself it includes all the SSL TLS and all the TCP IP stack so it's a fully self-contained layer one through layer five. You can develop as big an application as you want using our SAMD21 and aside from that we've added our crypto authentication engine on the top of it which makes it a fully secure system solution from an age node or sensing node perspective for IoT battery-powered applications. So fully secure how do you implement security? So the security it's it comes with both layers of the security that typical Wi-Fi chips have but also on the top of it we've developed they brought in our crypto engines which is a unique product offering for Atmel and it's a hardware encryption plus memory space for key management and key storage so it secures the application space. The Wi-Fi itself comes with the SSL TLS as I mentioned as well as all the crypto that it needs for security of the Wi-Fi, the security of the internet, the next layer and then on the top of that the application space which is with our crypto engine. So what are we looking at on this board right here? So this is so this is our SAMD21. Here's our SAMD21 based on Cortex M0 plus that's our flagship product this is the Wink 1500 our Wi-Fi chip world's smallest self-contained with TCP IP and SSL TLS world's smallest Wi-Fi chip and the crypto authentication which is on the top it's a fully self-contained FCCC certified module that's available today for customers who are after battery consumed devices. So are we also talking about years of battery life here? We're talking about years of battery life on AAA batteries. Correct. AAA battery years of battery life? Years of battery life. This is again from a use case functionality perspective if you look at the use cases that require holding of more than once every 30, once every 30 minutes again you're talking over 10 years of battery life for out of AAA. Did you say 10 years? 10 years of battery life. For every 30 minutes? If it's pulling more than 30 minutes. Alright and so this module goes into what kind of device? This is a pretty much drop on any boards that the customer wants to develop or use it as is to integrate into any kind of thing any kind of gadget around the house it's certified it's a it's a Wi-Fi Alliance certified works with a lot of different access points as well as for FCC certification so your imagination can guide you to what type of devices can use this because it's very small very thin fully secured all layers of security including the application space and ready to be consumed by things developers. So at Maldi basically you're kind of like doing magic no I mean these devices lasting for 10 years is crazy but this is IoT designed for IoT. These are designed from the ground up for IoT applications. So it's not like for Wi-Fi media streaming smartphones and stuff. Nope this isn't for media streaming this isn't for things that are media heavy this is for command and control applications and it's optimized for that it's very easy to use we've turned the complexities of a Wi-Fi into a serial IO so the MCU developers can focus on developing the applications in our MCU as opposed to anything else that's related to the communication part of it. We manage the all right so there it is world's lowest power Wi-Fi