High Availability for the LAMP Stack, Step-by-Step
MP4 | AVC 568 Kbps | 1280x720 | 25.000 fps | 3 hours | English, AVC ~62.3 Kbps, 2 ch | 413 MB
Genre: eLearning | Instructed by Jason Cannon
How to eliminate single points of failure & increase uptime for your Linux, Apache, MySQL, & PHP Based Web Sites & Apps.
This step-by-step guide teaches you everything you need to know in order to eliminate single points of failure for your Linux, Apache, MySQL, and PHP based web applications.
Do you wish you could ensure your web site was up all the time and finally enjoy a peaceful night's sleep?
Do you want to be able to scale without downtime and handle unexpected surges of traffic?
Do you want a solution that just works without spending weeks testing various combinations of technologies and software?
Do you want someone to lay it all out for you and walk you through an entire deployment?
If so, you're in the right place...
I understand, because I've been there.
I know what it's like to be woken up in the middle of the night when a web server goes down. I don't know about you, but I'm fairly grumpy at 2:47 A.M. when something is broke and I'm the one that has to fix it.
That's why I strive to eliminate single points of failure and ensure service availability. I would much rather plan for failure ahead of time than have to react to it. If you have a robust design that's easy to support you can repair any failures at your convenience instead of trying to cobble together a makeshift solution in the middle of the night.
I've spent countless hours designing, testing, and implementing high availability solutions for a wide range of Linux based services during my career. I've put together a well designed, well tested solution for the LAMP (Linux, Apache, MySQL, PHP) stack that easily scales to support an increasing number of users all the while decreasing downtime. I've taken each possible single point of failure into account from the obvious ones to the less than obvious edge cases you'll need to cover in order to have a truly robust design.