GREAT article Kristin, thanks. As a techie, I worked in a university Engineering faculty once and learned FORTRAN there, which involved punching cards on something identical to or very similar to slide 11. Makes me feel old...
The Memory one's also good, thanks again.
As author mentions above, if u liked this 13-slide HISTORY OF COMPUTERS, her 7 slides with captions on HISTORY OF MEMORY are also great fun. MEMORY segment easy to find if cut and paste link below. Very good stuff - NOT the usual industry dusty ole pix or stale captions: fresh time capsules. Enjoy!
Our PDP-11 had from 56 KBytes to 248 KBytes of memory. RT-11, RSX-11 where the best Op systems I ever met. Three engineers simultaneously worked with graphic terminals in the CAD system. Macro-11, Fortran, K-52 text editor where Great!
Java and "smart" phones - the're colorful and are for child games, not for science.
Don't believe? Read the link: http://www.joelonsoftware.com/articles/ThePerilsofJavaSchools.html
I have about 50 PDP-8s in my lab...well, they're Intersil IM6100s - a 40 pin DIP CMOS version of the PDP-8 from the late '70s. I designed an industrial digital pyrometer called "Digicon" with them back in the day. I kept a couple of tubes of the chips and from time-to-time have made some demonstration projects for the younger set. A 12 bit word with a 4096 word memory page, 8 basic instructions, 2 registers (really one, the accumulator) no stack (stores return address in the first word of the subroutine)- can you get any more "RISC" than that? TAD, ISZ, DCA, JMS - it's all good.
We had 2 PDP-11 computers at a facility I worked at. When the time came to replace them, in the later 80'2, we had a DEC technician, who happened to be an ex-employee of ours, come to dismantle them. I saw him pick up a screwdriver and remove the front panel (switched and blinking lights) from one them. Whatcha doin', I asked, souvenier to keep, he said. So I picked up screwdriver. I still have the panel from the second PDP at home. Anyone remember Varian computers? We had one of those too.
Do you mean this?
"remind us just how amazing smart phones are"
Smart phones, which cost a few hundred $ and fit in your pocket, are about 1000 times faster than even the fastest machine in the article, with 100 to 1000 times the amount of memory and storage, for a tiny fraction of the cost and size. It is pretty mind boggling when you think about it.
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Are the design challenges the same as with embedded systems, but with a little developer- and IT-skills added in? What do engineers need to know? Rick Merritt talks with two experts about the tools and best options for designing IoT devices in 2016. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.