<div dir="ltr"><div dir="ltr"><div>On the topic of well-designed things, the little iRiver iHP-120 audio recorder/player</div><div>can be upgraded nowadays to use a Compact Flash card instead of the original <br></div><div>"spinning rust" Toshiba 20GB (MK2004GAL) 80mm hard drive. Essentially the same</div><div>concept of upgrading from spinning rust to SSD, except over a considerably longer</div><div>time frame. I think the iRiver iHP-120 is almost twenty years old now, but it still works fine <br></div><div>thanks to the free Rockbox firmware. Even the original Toshiba hard drive surprisingly still</div><div>works (it's required in order to be able to update the firmware on the iHP-120 so that it</div><div>can work with Compact Flash storage). Some photos of what the modification (still somewhat</div><div>of a a work in progress, but currently usable) looks like are here:<br></div><div><br></div><div><a href="http://www.penlug.org/foswiki/bin/view/Main/HardwareInfoIriverIhp120">http://www.penlug.org/foswiki/bin/view/Main/HardwareInfoIriverIhp120</a></div></div></div><br><div class="gmail_quote"><div dir="ltr">On Sat, Dec 1, 2018 at 6:24 PM Rick Moen <<a href="mailto:rick@linuxmafia.com">rick@linuxmafia.com</a>> wrote:<br></div><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex">Quoting Paul Zander (<a href="mailto:paulz@ieee.org" target="_blank">paulz@ieee.org</a>):<br>
<br>
> We have to remember that the physics for all hard drives even before <br>
> there were 8" floppy disks was oxides of iron and similar metals.<br>
> The memory hierarchy concept continues. $100 can buy:<br>
> * 16 GB DDR4<br>
> * 500GB USB 3.1<br>
> * 2TB HDD with 128MB cache SATA<br>
> <br>
> Also, 8GB RAM is "typical" for laptops on the market today.<br>
<br>
Vocabulary word for the day is 'amortisation' (or, for most people here, <br>
'amortization').<br>
<br>
Which is to say, the trick when purchasing things like computer hardware<br>
with high likelihood of economic service life extending over several<br>
years, the trick is to do your planning based on estimated value each <br>
year until decommissioning.<br>
<br>
Hardware that you can expect to be fully usable for ten years is worth<br>
spending for, even if it costs twice as much as alternative choices you<br>
guess you'll decomission (or put in a closet in four years).<br>
<br>
I keep seeing people buying underdesigned gear that'll be unsatisfactory<br>
in only a few years, merely because it was 'cheap', ignoring it being<br>
actually quite expensive on an annual basis over its service life.<br>
<br>
More at:<br>
<a href="http://linuxmafia.com/~rick/lexicon.html#moenslaw-bicycles" rel="noreferrer" target="_blank">http://linuxmafia.com/~rick/lexicon.html#moenslaw-bicycles</a><br>
(As /usr/games/fortune just said to me: 'Cheap things are of no value,<br>
valuable things are not cheap.')<br>
<br>
I'm sure you're correct that 8GB is 'typical' for laptops on that market<br>
today. IMO, the right thing to do is determine before buying what'd <br>
be required, eventually, to substantially increase that. Find out how<br>
many memory slots the unit has, how many are currently occupied, whether<br>
DIMMs must be provisioned in matched pairs or not, what max. RAM the<br>
motherboard supports, and how much it currently costs to (say) quadruple<br>
total RAM by buying high-density DIMMs of the supported type on the<br>
retail market (from, say, <a href="http://www.satech.com/" rel="noreferrer" target="_blank">http://www.satech.com/</a> ).<br>
<br>
You'll thank yourself later for doing that preparation up-front.<br>
<br>
<br>
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</blockquote></div>