collecting links and documents about the topic
Object Systems (2004, as used in Thief 1998) http://chrishecker.com/images/6/6f/ObjSys.ppt
// Usage: | |
// var express = require('express') | |
// require('enableMultipleViewRoots')(express) | |
module.exports = function(express) { | |
var old = express.view.lookup; | |
function lookup(view, options) { | |
// If root is an array of paths, let's try each path until we find the view | |
if (options.root instanceof Array) { |
JSR main | |
; Main | |
:main | |
JSR setup ; Setup the hardware | |
SET A, msg ; Store msg in A for print_message | |
JSR print_message ; Print our message | |
SET PC, end ; End the program | |
import string | |
def find_position(char): | |
for set_num in range(len(table)): | |
if char in table[set_num]: | |
return set_num | |
return False | |
def forge_offsets(key, direction, offset): | |
if type(key) is str: |
collecting links and documents about the topic
Object Systems (2004, as used in Thief 1998) http://chrishecker.com/images/6/6f/ObjSys.ppt
Syncing an Ethereum node is largely reliant on IOPS, I/O Per Second. Budget SSDs will struggle to an extent, and some won't be able to sync at all.
This document aims to snapshot some known good and known bad models.
For size, 4TB comes recommended as of mid 2024. The smaller 2TB drive should last an Ethereum full node until early 2025 or thereabouts, with crystal ball uncertainty. Remy wrote a migration guide to 4TB.
High-level, QLC and DRAMless are far slower than "mainstream" SSDs. QLC has lower endurance as well. Any savings will be gone when the drive fails early and needs to be replaced.