ADIPIX

ADIPIX

OGYNU

tiny.cc/ADIPIX The "doomsday" font family - for microprinting, well human-readable. Nanofamily = ADIPIX 4x5, NANOPIX 3x4, ADIGRAPH ICO, CHROMAPIX 1x4.

For nano-print, digital ink, icons, mosaic, metal-engraving, anodized aluminium print. This font was made public under CC no deriv. attr. license, for personal use ONLY. For business, read instructions in the black set. Copyright Adrian Mario G [OGYNU]


tiny.cc/ADIPIX


Meet the bitmap-text with ADIPIX 4x5. Smallest font available both human readable & complete: latin, greek, cyrilik, hebrew, math. Add special notations > ASCIImath, ABCmusic, transliteration and pixel-QR. Add cold anchors, links, tags. (see howto below). The font is on a 4x5 pixels basic grid, and is truly well readable.

Best for microprinting & small footprint. Bitmapped in PNG = only 130% of the ASCII/Unicode Kb! Usable for microprinting on paper or 35mm film. Huge data can be stored. This BMP font is truly made for cold-storage of big datasets, on paper or film!

Four A4 pure *.txt in 11 pt. font ~ 55 Kb, bitmapped. Less memory than this? Only 4x2 Pixel-Braille no-spaces in B/W (~28Kb). Optimal for blinding crawlers > you can extend that by superposing channel-colors (3 +1 rnd). I prepared also a colored code ChromaPix, but machine-readable and same footprint (colors= *4 channels, even if they are smaller, bitmapped). See ADIPIX sample here, with further instructions - download PNG (do not resize!) & ZOOM.


ADIPIX & HOWTO: 6.5 KB


ADIGRAPH ICO set completes ADIPIX font. Available under the same conditions (see above). Trigrams, web+crypto, astro+zodiac, occult, food, travel desktop, radio, optics, electronic, work, meta-language ideograms. "A picture = 1k words". Icons language is concentrated and can both encrypt and minimize text. You can set "sprites". The sample here is only a part of the full set, comprising over 1k items = 27 Kb ONLY. Science cheatsheets and pixel-charts can be delivered. Nano-Cyclopaedia ~ 30 kb.


ADIGRAPH ICO - 10 Kb


EDITING with BMP sprites > first compose your txt in a normal Notepad or similar app. Edit everything and save as Unicode txt. (math, greek, etc are in Unicode). You must split big texts into equal parts with a splitter like FFSI (that one keeps Unicode) and rename each as *.txt. Once your txt. is ready, just copy-paste each part in the editor from Fontstruct.com [the font has an editing option]. Adjust browser window then screen- shot the result with an appliance like this. Edit in Gimp/PH and save as B/W-bitmap PNG. That is the smallest footprint.


ADIPIX 4x5 ▶ bit.ly/2Cjumu2  •  TINY QR ▶ bit.ly/3gICmUD  •  MATH ▶ asciimath.org 

MICRO QR ▶ bit.ly/32iQm3x • UNICODE ▶ bit.ly/3gFL71E • ABC ▶ abcnotation.com.

TXT TOOLS ▶ texttools.com • PIX-2-SVG ▶ codepen.io • TRANSLIT. ▶ Google

LORIPSUM ▶ lorem-ipsum.info • INKSCAPE hi-res (for print) ▶ y2u.be/nwu52qh_rbc

Chars / line - Wikip. • Charcounter ▶ wordcounter.net • TXT split ▶ FFSI

Sprites SoftwareNomogram SoftAlphabix BMP font editor +html export



ADIPIX MATH SET (copy-paste):

α β δ ε θ λ μ π φ ψ Ω ∆ ∧ ∨ < > ≤ ≥ ∞ ~ ≈ ≃ ≡ = ≠ + - ÷ × ± ∑ √ x^n ∮ ∫ ∬ ∭ ∆ ∇ # ∂ ℯ ∀ ∁ ∃ Æ æ  ∅ ∈ ∋ ⊂ ⊃ ∩ ∪ ⊆ ⊇ ⋂ ⋃ ... ∟ ∠ ◀ ▶ • ◆  █ $ € £ ¥ § °C


OTHER UNICODE (useful, but not ∈ ADIPIX )  

♻ 🔊 🔍 ⛔ ❤ 🍎  ☎ 📱🏠 🎥 📷 🎧 🚗 💎 ⌛ ⚗💲🍔 🍷🍴 🍵 ✋ ☚ ☛  ♪ ♫ ♬🕒 🕓 

■ ⬛ ◆ ◾ ◀ ▶ • ● ▲ ▼ --- ♈ ♉ ♊ ♋ ♌ ♍ ♎ ♏ ♐ ♑ ♒ ♓ ⛎ ☿ ♀ ♁ ♂ ♃ ♄ ♅ 

☭ ⚒ ☥ ✝✡ ☪卐 卍 ☰ ☱ ☲ ☳ ☴ ☵ ☶ ☷ [di-tri-tetragram] --- ⌘ ✲❖ ⎇ ⌥ ↵ ☰ 𝌆 🏠

⇱ ⇲  ⇱ ⇲ ⏪ ⏩ ⏫ ⏬ --- $ € £ ¥ § €  © ® ¶ † --- ▅ ▆ ▇ 【 】... ++ alchemy symbols

ă Ă â Â î Î ş Ş ţ Ţ - α β γ δ ε ζ η θ ι κ λ μ ν ξ ο π ρ ς τ υ φ χ ψ ω ΑΒΓΔΕΖΗΘ Ι ΚΛΜΝΞΟΠΡΣΤΥΦΧΨΩ [ | ]


MICROPRINTING can be done in 2 ways: A. By TT-font B. By sprites app./Fontstruct.

A. Download TT font and use in your app, at 2-3 pt (just tackle the right magnitude). Activate pixel-grid in > Corel, AI, Inkscape, OpenOffice etc. "Snap 2 pixel". This is angular! Results a pixel-perfect print. Print in high-res >1200 dpi. Best, for large texts.

B. Sprites/bitmap > Screenshot Fontstruct editor, at smallest magnitude, import in PH, then AI or Inkscape with hi-res document format. Do not resize! Save as B/W-PNG.

A+B. Search a "digital printing service on 35mm BW" or "2400 dpi B/W laser printing service". The bigger the resolution the smaller the result = more data on A4 / 35mm.

PIXEL-PERFECT > This is angular! Type an integer with the best match for the further processing in Inkscape. Set the template DPI. "Snap-2-pixel"! Get the best "pixel/inch" possible, as integers of dots/pixel. You shall have minimum 2x2 dots/pixel.

The best results are when printer+document+BMP are balanced together. Hence you must know the printer resolution in advance.


SAMPLE > A 2400 x 2400 DPI printer: At 3x3 dots/pixel You get 800 pix/inch. The same printer-value = 2400, is to be set in the Inkscape style- sheet. 800 px/inch >cca 120 letters/inch. A4 =8.3 x 11.7 inch. Hence 7 x 120= 1540 letters. With white-spaces etc, probably 1000 / line. Usual font has cca 80-100 chars/line, see: wikipedia.org.

That's the maximal "condensing", probably in practice will be lower. Is 10x denser. Hence as surface you'll get 1/100. Practially best results are 1/30 - 1/50.

You get 50 A4 on one single A4. Or a book on 4-5 A4 or 35mm B/W film.

Print on cannabis, rush or bamboo fibers paper. They are renewable and better than wood paper. One ha of wood gives 4x LESS cellulose as 1 ha cannabis. But the latter is renewable each year! Modern tech is simply soo dumb and even malevolent.

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EMP: The creation of those small fonts was a reaction to the brilliant software for cold-storage: PAPERBACK: Link 1, Link 2, Link 3. A 300 Kb txt is coldstored in only 1/2 A4. 4-5x smaller as with AdiPix. That's mostly because of the ZIP compression. Yet... coldstorage is meant for computer-failure (EMP / HEMP). And for reading the paper-back you need again a computer + scanner + soft. It's a devil's circle! Besides, if you get a machine working after HEMP, a stone M-CD as from Verbatim is enough for storage> 2-300 years. CD is not prone to HEMP.

The "final solution" for the vicious "machine-circle" is the most condensed ANALOGUE and HUMAN-READABLE design. And that's a nanofont + normal lens. They are OCR-enabled too! Here an article about paper data storage. To be noted: Proprietary, professional microfilm data-storage for "doomsday" is analogue too: both machine + human readable (lens) with a 3x4 nanofont [nonsimilar to regular latin]. Mines are free for personal use, in normal alphabet; only 30% bigger, but easy to read!

The number of glyphs possible are limited by the combinatorics of the pixels. Hence, even the best professional 3x4 px fonts are limited by permutations math. Not all are similar to normal glyphs, hence you get an "abstract alphabet", hardly readable. My NanoPix 3x4 is well readable.


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My font families for microprinting are AdiPix 4x5 (full set), NanoPix 3x4 (basic set), BraillePix (basic set, capitals), AdiGraph icons and ChromaPix (the smallest set possible > 4 pixels/letter incl. whitespaces = a chromatic barcode). All are timestamped and trusted authority registered by me. Only personal use allowed, ASAP. All are both human + machine readable. See the graphic.

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LIBRARY IN A BOX. For a doomsday, several automate and professional microfilm systems are made. But the principle can be applied by anyone: so that info will be not more monopolized as after the Great Flood. Many newspapers records form XX century are now on microfilm. Using microfonts like ADIPIX + 35mm BW film you can do a library in a box. The quality of the info is also angular. Good info is concentrated. All angular chemistry and physics papers altogether are LESS than the average DOCTORAND bullshit of today (2-300 garbage pages...). The same with cultural texts. A cheatsheet book in applied chemistry and basic tech can be under 350 pages.

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DO ANTIQUE - ANCHORS [Ψ*], LINKS [Φ*], TAGGING [Θ*], HASH [#*]!

INTERLINKING - You can do cold-interlinking with the best, oldest method. The PINAKES of Callimachus in the Alexandrine Library, using Isopsephy (greek Gematria). Iso+psephisos = equal or whole sum. To count the whole. That was the target.

Kinda B64 link shortener with 30*2 letters (big+small caps). 5 glyphs = 60^5 = 777,6 mil links. 6 glyphs =46,6 mild. 3 glyphs = 216k. Put in front a special ID like Φ*. The resulted link looks like [Φ*uAbZ1]. Searching in your txt "Φ*", you get all links.

To the alphabet (as Callimachus did) you add 10 ciphers and use the famous B58. Print the table.You can do cold ANCHORS [Ψ*] with 3 glyphs or cold LINKS [Φ*] with 5-6 glyphs. Done! Do your INDEX with those anchors + links between documents. Just as Callimachus did, 2000 years ago 100% manually with tables + mechanical computers like Antikithera (a poket-calc. + smart tables will do, today).

Of course they knew basic gogol-numbers as required by crypto; read "The Sand Reckogner" /Archimedes. And they used "Caesar Cypher" or other crypto adding symbolic/graphic encryption which are unbreakable.

Of course they knew basic hashing; on a pre-determined grid the text was listed, (no spaces) adding the column of letters as Isosephy sum. That was the fingerprint of the document: a CRC-sum kinda, in modern terms.

Doing the sum of 2 CRC-hashes by Isopsephy they got a hash of hashes hence kinda crypto-interlinking. That is: blockchain! Or as sum of whole documents = docu-hash. It was not meant to be unbreakable but practic. Unbreakable was: 2 (real) thumb+ index fingerprints (or double seals) on 2 documents. A chain of parchments resulted.

To the Isopsephy links you can add some index of subjects, a "hashtag". An example: "travelling" tag = 2Wn. Link + tag = [Φ*uAbZ1+Θ*2Wn] Branches (as per Aristotle "Categories" instructed) were used for tags hierarchy. Those are simple "leveled tables"; you can do as many levels as you want.

To all that you can add coldstored crypto-links like IPFS or BTC. Or QR+ABCnotation, url-shortenes, etc. Nano-hypermedia is the result.

More on isopsephy, stoicheia, geomantic figures /#2, magic squares, triangle nr.

SLIDERULERS + NOMOGRAMS + TABLES

Using all three you can do any required calculation - no machine required. One of the first sliderule was for "doubling the cube" (the famous Delian Problem/Archytas). Or tables with "Rabbit Problem/Fibonacii" or Rule 72. Smith chart (derived from stereographic 4-sphere) or the astrolabe. All analogue calculators, besides mechanical ones. Search "nomogram generator", nomograms, wiki/nomogram, Smith chart, diy Astrolabe - all analogue.

TABLET - For fast notices they used washable slate tablet or vax-tablet. You can use today a boogie-board or a reusable notebook.

RADIO - few initiates used galena radio: flame rectifiers/amps, magamps, negative oscillators, silver coils, Cu-Fe battery. sparkbangbuzz.com ; crystalradio.net ; diy-9v-battery. For fun: you can send binary data with the simplest radio: I-Ching 2 Morse...


AN ANTIQUE PHOTOCOPY + ALUMINIUM PHOTO

Ferro-gallic photocopy was used (similar to Pellet/Nakahara, see pag.99 alt processes) in Alex. Library, a copy with natural substances like ferric chloride/sulfate and gallic acid. The recipes are to be found in Pliny's Encyclopedia. Gallic ink on parchment.

Ferrous/ferric sulphate or chloride, gallic & oxalic acid, alum, water - see pag 99.

Now, you can print the data on aluminium! Aluminium, when corroded, feature spontaneous a nano-hexagonal grid which can be sealed by anodization. Search "Durajet" or "anodized aluminium printing". PS> sliderules+nomograms cand be done in that way. US Army used Al plates from 1955, weatherproof.



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