I am a software engineer focused on embedded systems. My background is in computer networks, with a PhD. in distributed real-time systems. I have worked in the medical industry on the connectivity of embedded devices and on 5G/WiFi smart antennas.
I am a software engineer focused on embedded systems. My background is in computer networks, with a PhD. in distributed real-time systems. I have worked in the medical industry on the connectivity of embedded devices and on 5G/WiFi smart antennas.
I am a software engineer focused on embedded systems. My background is in computer networks, with a PhD. in distributed real-time systems. I have worked in the medical industry on the connectivity of embedded devices and on smart antennas.
Practical Byzantine Fault Tolerance (PBFT) is a consensus algorithm for permissioned environments that allows a number of faulty nodes f<n/3.
It does not rely on synchrony for correctness and it is safe against Byzantine faults (when f<n/3).
It is used in BFS (PBFT for NFS) and in hyperledger fabric, to name the first two that came in my mind.
Remote: Yes
Willing to relocate: no
Technologies: C/C++, Python, Yocto/Open embedded, u-boot, STM32, Arm, USB, I2C, CAN, HTTPS, Flask, PyTorch, git, GNU/Linux, linux drivers, 5G, WiFi, BLE
Resume/CV: https://baldesi.ovh/download/resume_baldesi_sw.pdf
Email: luca@baldesi.ovh
LinkedIn: https://www.linkedin.com/in/luca-baldesi-0363b68a/
I am a software engineer focused on embedded systems. My background is in computer networks, with a PhD. in distributed real-time systems. I have worked in the medical industry on the connectivity of embedded devices and on 5G/WiFi smart antennas.