> The U.S. Digital Service isn’t perfect, but it is clearly working. The team estimates that for every $1 million invested in USDS that the government will avoid spending $5 million and save thousands of labor hours. Over a five-year period, the team’s efforts will save $1.1 billion, redirect almost 2,000 labor years towards higher value work, and generate over 400 percent return on investment. Most importantly, USDS will continue to deliver better government services for the American people, including Veterans who deserve better.

> In the private sector, these kinds of numbers would not lead to a 50 percent cut in budget. Instead, you’d clearly invest further with that kind of return. Considering the ambitious goals set out in the President’s Management Agenda, the Trump Administration should double down on better support for the public, our troops, and our veterans. The best way to do that is clearly through investments like USDS.

Why would you halve the budget of a team that's yielding a more than 400% ROI (in terms of cost savings)?

https://en.wikipedia.org/wiki/United_States_Digital_Service

Apparently the deaths are justified because energy.

Are the subsidies and taxes (incentives and penalties) rational in light of the relative harms of each form of energy?

"Study: U.S. Fossil Fuel Subsidies Exceed Pentagon Spending" https://www.rollingstone.com/politics/politics-news/fossil-f...

> The IMF found that direct and indirect subsidies for coal, oil and gas in the U.S. reached $649 billion in 2015. Pentagon spending that same year was $599 billion.

> The study defines “subsidy” very broadly, as many economists do. It accounts for the “differences between actual consumer fuel prices and how much consumers would pay if prices fully reflected supply costs plus the taxes needed to reflect environmental costs” and other damage, including premature deaths from air pollution.

IDK whether they've included the costs of responding to requests for help with natural disasters that are more probable due to climate change caused by these "externalties" / "external costs" of fossil fuels.

A thing may be identified by a URI (/person/123) for which there are zero or more URL routes (/person/123, /v1/person/123). Each additional route complicates caching; redirects are cheap for the server but slower for clients.

JSONLD does define a standard way to indicate that a value is a link: @id (which can be specified in a/an @context) https://www.w3.org/TR/json-ld11/

One additional downside to storing URIs instead of bare references is that it's more complicated to validate a URI template than a simple regex like \d+ or [abcdef\=\d+]+

/usr/bin/python can point to either /usr/bin/python3 or (as PEP 394 currently recommends) /usr/bin/python2

  $ alternatives --config python

FWIU, there are ubi8/python-27 and ubi8/python-36 docker images. IDK if they set /usr/bin/python out of the box? Changing existing shebangs may not be practical for some applications (which will need to specify 'python4' whenever that occurs over the next 10 supported years of RHEL/CENTOS 8)

What are the optimizations in JMAP that make it faster than, say, Solid? Solid is built on a bunch of W3C Web, Security, and Linked Data Standards; LDP: Linked Data Protocol, JSON-LD: JSON Linked Data, WebID-TLS, REST, WebSockets, LDN: Linked Data Notifications. [1][2] Different worlds, I suppose.

There's no reason you couldn't represent RFC5322 data with RDF as JSONLD. There's now a way to do streaming JSON-LD.

LDP does paging and querying.

Solid supports pubsub with WebSockets and LDN. It may or may not (yet?) be as efficient for synchronization as JMAP, but it's definitely designed for all types of objects with linked data web standards; and client APIs can just parse JSON-LD.

[1] https://github.com/solid/information#solid-specifications

[2] https://github.com/solid/solid-spec/issues/123 "WebSockets and HTTP/2" SSE (Server-Side Events)

https://jmap.io/

JMAP: JSON Meta Application Protocol https://en.wikipedia.org/wiki/JSON_Meta_Application_Protocol

Is there a OpenAPI Specification for JMAP? There are a bunch of tools for Swagger / OpenAPIs: DRY interactive API docs, server implementations, code generators: https://swagger.io/tools/open-source/ https://openapi.tools/

Does JMAP support labels; such that I don't need to download a message and an attachment and mark it as read twice like labels over IMAP?

How does this integrate with webauthn; is that a different layer?

(edit) Other email things: openpgpjs; Web Key Directory /.well-known/openpgpkey/*; if there's no webserver on the MX domain, you can use the ACME DNS challenge to get free 3-month certs from LetsEncrypt.

https://wiki.gnupg.org/WKD

From "California grid data is live – solar developers take note" https://news.ycombinator.com/item?id=18855820 :

>> It looks like California is at least two generations of technology ahead of other states. Let’s hope the rest of us catch up, so that we have a grid that can make an asset out of every building, every battery, and every solar system.

> +1. Are there any other states with similar grid data available for optimization; or any plans to require or voluntarily offer such a useful capability?

How do these competitions and the live actual data from California-only (so far; AFAIU) compare?

Are there standards for this grid data yet? Without standards, how generalizable are the competition solutions to real-world data?

What are the current standards efforts for blockchain data interchange?

W3C JSON-LD, ld-signatures + lds-merkleproof2017 (normalize the data before signing it so that the signature is representation-independent (JSONLD, RDFa, RDF, n-triples)), W3C DID Decentralized Identifiers, W3C Verifiable Claims, Blockcerts.org

W3C Credentials Community Group: https://w3c-ccg.github.io/community/work_items.html#draft-sp... (DID, Multihash (IETF), [...])

"Blockchain Credential Resources; a gist" https://gist.github.com/westurner/4345987bb29fca700f52163c33...

Specifically for payments:

https://www.w3.org/TR/?title=payment (the W3C Payment Request API standardizes browser UI payment/checkout workflows)

ILP: Interledger Protocol https://interledger.org/rfcs/0027-interledger-protocol-4/

There are a number of options/equity calculators:

https://tldroptions.io/ ("~65% of companies will never exit", "~15% of companies will have low exits*", "~20% of companies will make you money")

https://comp.data.frontapp.com/ "Compensation and Equity Calculator"

http://optionsworth.com/ "What are my options worth?"

http://foundrs.com/ "Co-Founder Equity Calculator"

These look fun; in particular the "Attack Lab".

Dockerfiles might be helpful and easy to keep updated. Alpine Linux or just busybox are probably sufficient?

The instructor set could extend FROM the assignment image and run a few tests with e.g. testinfra (pytest)

You can also test code written in C with gtest.

I haven't read through all of the materials: are there suggested (automated) fuzzing tools? Does OSS-Fuzz solve?

Are there references to CWE and/or the SEI CERT C Coding Standard rules? https://wiki.sei.cmu.edu/confluence/plugins/servlet/mobile?c...

"How could we have changed our development process to catch these bugs/vulns before release?"

"If we have 100% [...] test coverage, would that mean we've prevented these vulns?"

What about 200%?

pytest also has helpful tracebacks; though only for test runs.

With nose-progressive, you can specify --progressive-editor or update the .noserc so that traceback filepaths are prefixed with your preferred editor command.

vim-unstack parses paths from stack traces / tracebacks (for a number of languages including Python) and opens each in a split at that line number. https://github.com/mattboehm/vim-unstack

Here's the Python regex from my hackish pytb2paths.sh script:

  '\s+File "(?P<file>.*)", line (?P<lineno>\d+), in (?P<modulestr>.*)$'

https://github.com/westurner/dotfiles/blob/develop/scripts/p...

Where is the feeling felt? Is there an associated color or a shape or a kinesiologic position?

"Love styles" https://en.wikipedia.org/wiki/Love_styles

"Greek words for love" https://en.wikipedia.org/wiki/Greek_words_for_love

One major advantage of the gitflow/hubflow git workflows is that there is a standard way of merging across branches. For example, a 'hotfix' branch is merged into the stable master branch and also develop with one standard command; there's no need to re-explain and train new devs on how the branches were supposed to work here. I even copied the diagram(s) into my notes: https://westurner.github.io/tools/#hubflow

IMHO, `git log` on the stable master branch containing each and every tagged release is preferable to having multiple open release branches.

Requiring tests to pass before a PR gets merged is a good policy that's independent of the trunk or gitflow workflow decision.

What a great idea. Are you updating the commit message with `git commit --amend` until you squash and push, or writing a novel on the side?

BDD acceptance tests can be written in a pseudo-prose syntax (and ideally, executed)

To quote myself from a post the other day https://news.ycombinator.com/item?id=19407170 :

> PyDatalog does Datalog (which is ~Prolog, but similar and very capable) logic programming with SQLAlchemy (and database indexes) and apparently NoSQL support. https://sites.google.com/site/pydatalog/

> Datalog: https://en.wikipedia.org/wiki/Datalog

> ... TBH, IDK about logic programming and bad facts. Resilience to incorrect and incredible information is - I suppose - a desirable feature of any learning system that reevaluates its learnings as additional and contradictory information makes its way into the datastores.

I'm not sure that Datalog is really necessary for most CRUD operations; SQLAlchemy and the SQLAlchemy ORM are generally sufficient for standard database querying CRUD.

Metadata is not just data

A few sysadmin and devops curriculum resources; though none but Beaker and Molecule are interactive with any sort of testing AFAIU:

"System Administrator" https://en.wikipedia.org/wiki/System_administrator

"Software Configuration Management" (SCM) https://en.wikipedia.org/wiki/Software_configuration_managem...

"DevOps" https://en.wikipedia.org/wiki/DevOps

"OpsSchool Curriculum" http://www.opsschool.org

- Soft Skills 101, 201

- Labs Exercises

- Free. Contribute

awesome-sysadmin > configuration-management https://github.com/kahun/awesome-sysadmin/blob/master/README...

- This could list reusable module collections such as Puppet Forge and Ansible Galaxy;

- And module testing tools like Puppet Beaker and Ansible Molecule (that can use Vagrant or Docker to test a [set of] machines)

https://github.com/stack72/ops-books

- I'd add "Time Management for System Administrators" (2005)

https://landing.google.com/sre/books/

- There's now a "Site Reliability Workbook" to go along with the Google SRE book. Both are free online.

https://response.pagerduty.com

- The PagerDuty Incident Response Documentation is also free online.

- OpsGenie has a free plan also with incident response alerting and on-call management.

There are a number of awesome-devops lists.

Minikube and microk8s package Kubernetes into a nice bundle of distributed systems components that'll run on Lin, Mac, Win. You can convert docker-compose.yml configs to Kubernetes pods when you decide that it should've been HA with a load balancer SPOF and x.509 certs and a DRP (Disaster Recovery Plan) from the start!

How does pytype compare with the PyAnnotate [1] and MonkeyType [2] dynamic / runtime PEP-484 type annotation type inference tools?

[1] https://github.com/dropbox/pyannotate

[2] https://github.com/Instagram/MonkeyType

So, does this disprove all of supersymmetry? https://en.wikipedia.org/wiki/Supersymmetry

Objective truth!? A question for epistemologists to decide.

How could they record their high entropy (?) solipsistic observations in an immutable datastore in such as way as to have probably zero knowledge of the other party's observations?

Anyways, that's why I only read the title and the abstract.

Wigner's friend experiment: https://en.wikipedia.org/wiki/Wigner%27s_friend

Cool tests! PyDatalog does Datalog (which is ~Prolog, but similar and very capable) logic programming with SQLAlchemy (and database indexes) and apparently NoSQL support. https://sites.google.com/site/pydatalog/

Datalog: https://en.wikipedia.org/wiki/Datalog

... TBH, IDK about logic programming and bad facts. Resilience to incorrect and incredible information is - I suppose - a desirable feature of any learning system that reevaluates its learnings as additional and contradictory information makes its way into the datastores.

Thanks for the wealth of resources in this post. Here are a few more:

"Python for Finance: Analyze Big Financial Data" (2014, 2018) https://g.co/kgs/qkY8J6 ... https://pyalgo.tpq.io also includes the "Finance with Python" course and this book as a PDF and Jupyter notebooks.

Quantopian put out a call for the best Value Investing algos (implemented in quantopian/zipline) awhile back. This post links to those and other value investing resources: https://westurner.github.io/hnlog/#comment-19181453 (Ctrl-F "econo")

"Lectures in Quantitative Economics as Python and Julia Notebooks" https://news.ycombinator.com/item?id=19083479 links to these excellent lectures and a number of tools for working with actual data from FRED, ECB, Eurostat, ILO, IMF, OECD, UNSD, UNESCO, World Bank, Quandl.

One thing that many finance majors, courses, and resources often fail to identify is the role that startup and small businesses play in economic growth and actual value creation: jobs, GDP, return on direct capital investment. Most do not succeed, but it is possible to do better than index funds and have far more impact in terms of sustainable investment than as an owner of a nearly-sure-bet index fund that owns some shares and takes a hands-off approach to business management, research, product development, and operations.

Is it possible to possess a comprehensive understanding of finance and economics but still not have personal finance down? Personal finance: r/personalfinance/wiki, "Consumer science (a.k.a. home economics) as a college major" https://news.ycombinator.com/item?id=17894632

"Categorical set theory" > "References" https://en.wikipedia.org/wiki/Categorical_set_theory#Referen...

From "Homotopy category" > "Concrete categories" https://en.wikipedia.org/wiki/Homotopy_category#Concrete_cat... :

> While the objects of a homotopy category are sets (with additional structure), the morphisms are not actual functions between them, but rather a classes of functions (in the naive homotopy category) or "zigzags" of functions (in the homotopy category). Indeed, Freyd showed that neither the naive homotopy category of pointed spaces nor the homotopy category of pointed spaces is a concrete category. That is, there is no faithful functor from these categories to the category of sets.

The 'dumbcoin' jupyter notebook is also a good reference: "Dumbcoin - An educational python implementation of a bitcoin-like blockchain" https://nbviewer.jupyter.org/github/julienr/ipynb_playground...

"Modeling stock return distributions with a quantum harmonic oscillator" (2018) https://iopscience.iop.org/article/10.1209/0295-5075/120/380...

> We propose a quantum harmonic oscillator as a model for the market force which draws a stock return from short-run fluctuations to the long-run equilibrium. The stochastic equation governing our model is transformed into a Schrödinger equation, the solution of which features "quantized" eigenfunctions. Consequently, stock returns follow a mixed χ distribution, which describes Gaussian and non-Gaussian features. Analyzing the Financial Times Stock Exchange (FTSE) All Share Index, we demonstrate that our model outperforms traditional stochastic process models, e.g., the geometric Brownian motion and the Heston model, with smaller fitting errors and better goodness-of-fit statistics. In addition, making use of analogy, we provide an economic rationale of the physics concepts such as the eigenstate, eigenenergy, and angular frequency, which sheds light on the relationship between finance and econophysics literature.

"Quantum harmonic oscillator" https://en.wikipedia.org/wiki/Quantum_harmonic_oscillator

> Requirements: […] A processor with AVX2 (i.e., Intel processors starting with the Haswell microarchitecture released 2013, and processors from AMD starting with the Rizen)

"Near-field photonic cooling through control of the chemical potential of photons" (2019) https://www.nature.com/articles/s41586-019-0918-8

There are a number of efforts to secure DNS (and SSL/TLS which generally depends upon DNS; and upon which DNS-over-HTTPS depends) and the identity proof systems which are used for record-change authentication and authorization.

Domain registrars can and SHOULD implement multi-factor authentication. https://en.wikipedia.org/wiki/Multi-factor_authentication

Are there domain registrars that support FIDO/U2F or the new W3C WebAuthn spec? https://en.wikipedia.org/wiki/WebAuthn

Credentials and blockchains (and biometrics): https://gist.github.com/westurner/4345987bb29fca700f52163c33...

DNSSEC: https://en.wikipedia.org/wiki/Domain_Name_System_Security_Ex...

ACME / LetsEncrypt certs expire after 3 months (*) and require various proofs of domain ownership: https://en.wikipedia.org/wiki/Automated_Certificate_Manageme...

Certificate Transparency: https://en.wikipedia.org/wiki/Certificate_Transparency

Certs on the Blockchain: "Can we merge Certificate Transparency with blockchain?" https://news.ycombinator.com/item?id=18961724

Namecoin (decentralized blockchain DNS): https://en.wikipedia.org/wiki/Namecoin

DNSCrypt: https://en.wikipedia.org/wiki/DNSCrypt

DNS over HTTPS: https://en.wikipedia.org/wiki/DNS_over_HTTPS

DNS over TLS: https://en.wikipedia.org/wiki/DNS_over_TLS

DNS: https://en.wikipedia.org/wiki/Domain_Name_System

Though others didn't, you might find this interesting: "Ask HN: Why would anyone share trading algorithms and compare by performance?" https://news.ycombinator.com/item?id=15802785 ( https://westurner.github.io/hnlog/#story-15802785 )

From the article:

> The way payday loans work is that payday lenders typically offer small loans to borrowers who promise to pay the loans back by their next paycheck. Interest on the loans can have an annual percentage rate of 390 percent or more, according to a 2013 report by the CFPB. Another bureau report from the following year found that most payday loans — as many as 80 percent — are rolled over into another loan within two weeks. Borrowers often take out eight or more loans a year.

390%

From https://www.npr.org/2019/02/06/691944789/consumer-protection... :

> TARP recovered funds totalling $441.7 billion from $426.4 billion invested, earning a $15.3 billion profit or an annualized rate of return of 0.6% and perhaps a loss when adjusted for inflation.[2][3]

0.6%

From the US Digital Services Playbook [1]:

> PLAY 13

> Default to open

> When we collaborate in the open and publish our data publicly, we can improve Government together. By building services more openly and publishing open data, we simplify the public’s access to government services and information, allow the public to contribute easily, and enable reuse by entrepreneurs, nonprofits, other agencies, and the public.

> Checklist

> - Offer users a mechanism to report bugs and issues, and be responsive to these reports

> [...]

> - Ensure that we maintain contractual rights to all custom software developed by third parties in a manner that is publishable and reusable at no cost

> [...]

> - When appropriate, publish source code of projects or components online

> [...]

> Key Questions

> [...]

> - If the codebase has not been released under an open source license, explain why.

> - What components are made available to the public as open source?

> [...]

[1] https://playbook.cio.gov/#play13

"Application of FinCEN's Regulations to Persons Administering, Exchanging, or Using Virtual Currencies" (2013) https://www.fincen.gov/resources/statutes-regulations/guidan...

"Legality of bitcoin by country or territory" https://en.wikipedia.org/wiki/Legality_of_bitcoin_by_country...

"Know your customer" https://en.wikipedia.org/wiki/Know_your_customer

"Anti-money-laundering measures by region" https://en.wikipedia.org/wiki/Money_laundering#Anti-money-la...

"Anti-money-laundering measures by region > United States" https://en.wikipedia.org/wiki/Money_laundering#United_States

> As the latest step in its program to develop effective defenses, the National Institute of Standards and Technology (NIST) has winnowed the group of potential encryption tools—known as cryptographic algorithms—down to a bracket of 26. These algorithms are the ones NIST mathematicians and computer scientists consider to be the strongest candidates submitted to its Post-Quantum Cryptography Standardization project, whose goal is to create a set of standards for protecting electronic information from attack by the computers of both tomorrow and today.

> “These 26 algorithms are the ones we are considering for potential standardization, and for the next 12 months we are requesting that the cryptography community focus on analyzing their performance,”

Links to the 17 public-key encryption and key-establishment algorithms and 9 digital signature algorithms are here: "Round 2 Submissions" https://csrc.nist.gov/Projects/Post-Quantum-Cryptography/Rou...

"Quantum Algorithm Zoo" has moved to https://quantumalgorithmzoo.org .

Oddly, whether a project has at least one CVE reported could be interpreted in favor of the project. https://www.cvedetails.com

Do they have a security disclosure policy? A dedicated security mailing list?

Do they pay bounties or participate in e.g Pwn2own?

Do they cryptographically sign releases?

Do they cryptographically sign VCS tags (~releases)? commits? `git tag -s` / `git commit/merge -S` https://git-scm.com/book/en/v2/Git-Tools-Signing-Your-Work

Downstream packagers do sometimes/often apply additional patches and then sign their release with the repo (and thus system global) GPG key.

Whether they require "Signed-off-by" may indicate that the project has mature controls and possibly a formal code review process requirement. (Look for "Signed-off-by:" in the release branch (`git commit/merge -s/--signoff`)

How have they integrated security review into their [iterative] release workflow?

Is the software formally verified? Are parts of the software implementation or spec formally verified?

Does the system trust the channel? The host? Is it a 'trustless' system?

What are the single points of failure?

How is logging configured? To syslog?

Do they run the app as root in a Docker container? Does it require privileged containers?

If it has to run as root, does it drop privileges at startup?

Does the package have an SELinux or AppArmor policy? (Or does it say e.g. "just set SELinux to permissive mode)

Is there someone you can pay to support the software in an enterprise environment? Open or closed, such contacts basically never accept liability; but if there is an SLA, do you get a pro-rated bill?

As far as indicators of actual software quality:

How much test coverage is there? Line coverage or statement coverage?

Do they run static analysis tools for all pull requests and releases? Dynamic analysis? Fuzzing?

Of course, closed or open source projects may do none or all of these and still be totally secure, insecure, or unsecure.

There are lots of project management systems with issue tracking and kanban boards with swimlanes. Because it's unreasonable to expect all volunteers to have a GH account or even understand what GH is for, support for external identity management and SSO may be essential to getting people to actually log in and change their password regularly.

Sidling a nonprofit with custom built software with no other maintainers is not what they need. Build (and pay for development, maintenance, timely security upgrades and security review) or Buy (where is our data? who backs it up? how much does it cost for a month or a few years? Is it open source with a hosted option; so that we can pay a developer to add or fix what we need?)

"Solutions architect" may be a more helpful objective title for what's needed. https://en.wikipedia.org/wiki/Solution_architecture

What are their needs? Marketing, accounting, operations, HR

Marketing: web site, maps service, directions, active social media presence that speaks to their defined audience

Accounting: Revenue and expenses, payroll/benefits/HR, projections, "How can we afford to do more?", handle donations and send receipts for tax purposes, reports to e.g. https://charitynavigator.org/ and infographics for wealth-savvy donors

Operations: Asset inventory, project management, volunteer scheduling

HR: payroll, benefits, volunteer scheduling, training, turnover, retaining selfless and enlightenedly-self-interested volunteers

Create a spreadsheet. Rows: needs/features/business processes. Columns: essential, nice to have, software products and services.

Create another spreadsheet. Rows: APIs. Columns: APIs.

Training: what are the [information systems] processes/workflows/checklists? How can I suggest a change? How do we reach consensus that there's a better way to do this? Is there a wiki? Is there a Q&A system?

"How much did you sink on that? Probably seemed like the best option according to the information available at the time, huh? Do you have a formal systems acquisition process? Who votes according to what type of prepared analysis? How much would it cost to switch? What do we need to do to ETL (extract, transform, and load) into a newer better system?"

When estimating TCO for a nonprofit, turnover is a very real consideration. People move. Chances are, as with most organizations TBH, there's a patchwork of partially-integrated and maybe-integrable systems that it may or may not be more cost-effective and maintainable to replace with a cloud ERP specifically designed for nonprofits.

Who has access rights to manually update which parts of the website? How can we include dynamic ([other] database-backed) content in our website? What is a CMS? What is an ERP? What is a CRM? Are these customers, constituents, or both? When did we last speak with those guys? How can people share our asks with social media networks?

If you're not willing or able to make a long-term commitment, the more responsible thing to do is probably to disclose any conflicts of interest recommend a SaaS solution hosted in a compliant data center.

q="nonprofit erp"

q="nonprofit crm"

q="nonprofit cms" + donation campaign visibility

What time of day are social media posts most likely to get maximum engagement from which segments of our audience? What is our ~ARPU "average revenue per user/follower"?

From "Ask HN: What are your favorite entrepreneurship resources" https://news.ycombinator.com/item?id=15021659 :

> USA Small Business Administration: "10 steps to start your business." https://www.sba.gov/starting-business/how-start-business/10-...

> "Startup Incorporation Checklist: How to bootstrap a Delaware C-corp (or S-corp) with employee(s) in California" https://github.com/leonar15/startup-checklist

> FounderKit has reviews for Products, Services, and Software for founders: https://founderkit.com

... I've heard good things about Gusto for payroll, HR, and benefits through Guideline: https://gusto.com/product/pricing

Outstanding resource.

jwasham/coding-interview-university also links to a number of also helpful OER resources: https://github.com/jwasham/coding-interview-university

> The criticism of the MVP approach has led to several new approaches, e.g. the Minimum Viable Experiment MVE[19] or the Minimum Awesome Product MAP[20].

https://en.wikipedia.org/wiki/Minimum_viable_product#Critici...

From "REMME – A blockchain-based protocol for issuing X.509 client certificates" https://news.ycombinator.com/item?id=18868540 :

""" In no particular order, there are a number of blockchain PKI (and DNS (!)) proposals and proofs of concept.

"CertLedger: A New PKI Model with Certificate Transparency Based on Blockchain" (2018) https://arxiv.org/pdf/1806.03914 https://scholar.google.com/scholar?q=related:LF9PMeqNOLsJ:sc...

"TABLE 1: Security comparison of Log Based Approaches to Certificate Management" (p.12) lists a number of criteria for blockchain-based PKI implementations:

- Resilient to split-world/MITM attack

- Provides revocation transparency

- Eliminates client certificate validation process

- Eliminates trusted key management

- Preserves client privacy

- Require external auditing

- Monitoring promptness

... These papers also clarify why a highly-replicated decentralized trustless datastore — such as a blockchain — is advantageous for PKI. WoT is not mentioned.

"Blockchain-based Certificate Transparency and Revocation Transparency" (2018) https://fc18.ifca.ai/bitcoin/papers/bitcoin18-final29.pdf

https://scholar.google.com/scholar?q=related:oEsKmJvdn-MJ:sc...

Who can update and revoke which records in a permissioned blockchain (or a plain old database, for that matter)?

Letsencrypt has a model for proving domain control with ACME; which AFAIU depends upon DNS, too. """

TLA references "Certificate Transparency Using Blockchain" (2018) https://eprint.iacr.org/2018/1232.pdf https://scholar.google.com/scholar?q="Certificate+Transparen...

Which universities teach formal methods?

- q=formal+verification https://www.class-central.com/search?q=formal+verification

- q=formal-methods https://www.class-central.com/search?q=formal+methods

Is formal verification a required course or curriculum competency for any Computer Science or Software Engineering / Computer Engineering degree programs?

Is there a certification for formal methods? Something like for engineer-status in other industries?

What are some examples of tools and [OER] resources for teaching and learning formal methods?

- JsCoq

- Jupyter kernel for Coq + nbgrader

- "Inconsistencies, rolling back edits, and keeping track of the document's global state" https://github.com/jupyter/jupyter/issues/333 (jsCoq + hott [+ IJavascript Jupyter kernel], STLC: Simply-Typed Lambda Calculus)

- TDD tests that run FV tools on the spec and the implementation

What are some examples of open source tools for formal verification (that can be integrated with CI to verify the spec AND the implementation)?

What are some examples of formally-proven open source projects?

- "Quark : A Web Browser with a Formally Verified Kernel" (2012) (Coq, Haskell) http://goto.ucsd.edu/quark/

What are some examples of projects using narrow and strong AI to generate perfectly verified software from bad specs that make the customers and stakeholders happy?

From reading though comments here, people don't use formal methods because: cost-prohibitive, inflexibile, perceived as incompatible with agile / iterative methods that are more likely to keep customers who don't know what formal methods are happy, lack of industry-appropriate regulation, and cognitive burden of often-incompatible shorthand notations.

To add to the three points in the article:

Data quality https://en.wikipedia.org/wiki/Data_quality

Imputation https://en.wikipedia.org/wiki/Imputation_(statistics)

Feature selection https://en.wikipedia.org/wiki/Feature_selection

datacleaner can drop NaNs, do imputation with "the mode (for categorical variables) or median (for continuous variables) on a column-by-column basis", and encode "non-numerical variables (e.g., categorical variables with strings) with numerical equivalents" with Pandas DataFrames and scikit-learn. https://github.com/rhiever/datacleaner

sklearn-pandas "[maps] DataFrame columns to transformations, which are later recombined into features", and provides "A couple of special transformers that work well with pandas inputs: CategoricalImputer and FunctionTransformer" https://github.com/scikit-learn-contrib/sklearn-pandas

Featuretools https://github.com/Featuretools/featuretools

> Featuretools is a python library for automated feature engineering. [using DFS: Deep Feature Synthesis]

auto-sklearn does feature selection (with e.g. PCA) in a "preprocessing" step; as well as "One-Hot encoding of categorical features, imputation of missing values and the normalization of features or samples" https://automl.github.io/auto-sklearn/master/manual.html#tur...

auto_ml uses "Deep Learning [with Keras and TensorFlow] to learn features for us, and Gradient Boosting [with XGBoost] to turn those features into accurate predictions" https://auto-ml.readthedocs.io/en/latest/deep_learning.html#...

That's not a living wage (or a full time job). There are lots of job search sites.

Spending some time on a good resume / CV / portfolio would probably be a good investment with positive ROI.

Is there a nonprofit that you could volunteer with to increase your hireability during the other 158 hours of the week?

Or an online course with a credential that may or may not have positive ROI as a resume item?

Is there a code school in your city with a "you don't pay unless you land a full time job with a living wage and benefits" guarantee?

What is your strategy for business and career networking?

From https://westurner.github.io/hnlog/#comment-17894632 :

> Personal Finance (budgets, interest, growth, inflation, retirement)

Personal Finance https://en.wikipedia.org/wiki/Personal_finance

Khan Academy > College, careers, and more > Personal finance https://www.khanacademy.org/college-careers-more/personal-fi...

"CS 007: Personal Finance For Engineers" https://cs007.blog

https://reddit.com/r/personalfinance/wiki

From https://github.com/lukechilds/doge-seed :

> The first four words will be a randomly generated Doge-like sentence.

The seed phrases are fully valid checksummed BIP39 seeds. They can be used with any cryptocurrency and can be imported into any BIP39 compliant wallet.

> […] However there is a slight reduction in entropy due to the introduction of the doge-isms. A doge seed has about 19.415 fewer bits of entropy than a standard BIP39 seed of equivalent length.

> Abstract. Cryptography with quantum states exhibits a number of surprising and counterintuitive features. In a 2002 work, Barnum et al. argued informally that these strange features should imply that digital signatures for quantum states are impossible [6].

> In this work, we perform the first rigorous study of the problem of signing quantum states. We first show that the intuition of [6] was correct, by proving an impossibility result which rules out even very weak forms of signing quantum states. Essentially, we show that any non-trivial combination of correctness and security requirements results in negligible security.

> This rules out all quantum signature schemes except those which simply measure the state and then sign the outcome using a classical scheme. In other words, only classical signature schemes exist.

> We then show a positive result: it is possible to sign quantum states, provided that they are also encrypted with the public key of the intended recipient. Following classical nomenclature, we call this notion quantum signcryption. Classically, signcryption is only interesting if it provides superior efficiency to simultaneous encryption and signing. Our results imply that, quantumly, it is far more interesting: by the laws of quantum mechanics, it is the only signing method available.

> We develop security definitions for quantum signcryption, ranging from a simple one-time two-user setting, to a chosen-ciphertext-secure many-time multi-user setting. We also give secure constructions based on post-quantum public-key primitives. Along the way, we show that a natural hybrid method of combining classical and quantum schemes can be used to “upgrade” a secure classical scheme to the fully-quantum setting, in a wide range of cryptographic settings including signcryption, authenticated encryption, and chosen-ciphertext security.

"Quantum signcryption"

> It looks like California is at least two generations of technology ahead of other states. Let’s hope the rest of us catch up, so that we have a grid that can make an asset out of every building, every battery, and every solar system.

+1. Are there any other states with similar grid data available for optimization; or any plans to require or voluntarily offer such a useful capability?

> Why would people attend predatory colleges?

Why would people make an investment with insufficient ROI (Return on Investment)?

Insufficient information.

College Scorecard [1] is a database with a web interface for finding and comparing schools according to a number of objective criteria. CollegeScorecard launched in 2015. It lists "Average Annual Cost", "Graduation Rate", and "Salary After Attending" on the search results pages. When you review a detail page for an institution, there are many additional statistics; things like: "Typical Total Debt After Graduation" and "Typical Monthly Loan Payment".

The raw data behind CollegeScorecard can be downloaded from [2]. The "data_dictionary" tab of the "Data Dictionary" spreadsheet describes the data schema.

[1] https://collegescorecard.ed.gov

[2] https://collegescorecard.ed.gov/data/

Khan Academy > "College, careers, and more" [3] may be a helpful supplement for funding a full-time college admissions counselor in a secondary education institution

[3] https://www.khanacademy.org/college-careers-more

(I haven't the time to earn 10 academia.stackexchange points in order to earn the prestigious opportunity to contribute this answer to such a forum with threaded comments. In the academic journal system, journals sell academics' work (i.e. schema.org/ScholarlyArticle PDFs, mobile-compatible responsive HTML 5, RDFa, JSON-LD structured data) and keep all of the revenue).

"Because I need money for school! Next question. CPU: College Textbook costs and CPI: All over time t?!"

Pachyderm may be basically what you're looking for. It does data version control with/for language-agnostic pipelines that don't need to always redo the ETL phase. https://www.pachyderm.io

Dask-ML works with {scikit-learn, xgboost, tensorflow, TPOT,}. ETL is your responsibility. Loading things into parquet format affords a lot of flexibility in terms of (non-SQL) datastores or just efficiently packed files on disk that need to be paged into/over in RAM. http://ml.dask.org/examples/scale-scikit-learn.html

Sklearn.pipeline.Pipeline API: {fit(), transform(), predict(), score(),} https://scikit-learn.org/stable/modules/generated/sklearn.pi...

https://docs.featuretools.com can also minimize ad-hoc boilerplate ETL / feature engineering :

> Featuretools is a framework to perform automated feature engineering. It excels at transforming temporal and relational datasets into feature matrices for machine learning.

The PLoS 10 Simple Rules papers distill a number of best practices:

"Ten Simple Rules for Reproducible Computational Research" http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fj...

“Ten Simple Rules for Creating a Good Data Management Plan” http://journals.plos.org/ploscompbiol/article?id=10.1371/jou...

In terms of the scientific method, a null hypothesis like "there is no significant relation between the [independent and dependent] variables" may be dangerously unprofessional p-hacking and data dredging; and may result in an overfit model that seems to predict or classify the training and test data (when split with e.g. sklearn.model_selection.train_test_split and a given random seed).

One of these days (in the happy new year!) I'll get around to updating these notes with the aforementioned tools and docs: https://wrdrd.github.io/docs/consulting/data-science#scienti...

IDK what https://kaggle.com/learn has specifically in terms of analysis workflow? Their docker containers have very many tools configured in a reproducible way: https://github.com/Kaggle/docker-python/blob/master/Dockerfi...

systemd-crontab-generator may be usable for something like linting classic crontabs? https://github.com/systemd-cron/systemd-cron

Systemd/Timers as a cron replacement: https://wiki.archlinux.org/index.php/Systemd/Timers#As_a_cro...

Celery supports periodic tasks:

> Like with cron, the tasks may overlap if the first task doesn’t complete before the next. If that’s a concern you should use a locking strategy to ensure only one instance can run at a time (see for example Ensuring a task is only executed one at a time).

http://docs.celeryproject.org/en/latest/userguide/periodic-t...

Mentioned in the article: manual nbconvert, nbdime, ReviewNB (currently GitHub only), jupytext.

Jupytext includes a bit of YAML in the e.g. Python/R/Julia/Markdown header. https://github.com/mwouts/jupytext

JSON-LD 1.1 https://www.w3.org/TR/json-ld11/

"Changes since 1.0 Recommendation of 16 January 2014" https://www.w3.org/TR/json-ld11/#changes-from-10

Cortical column: https://en.wikipedia.org/wiki/Cortical_column

> In the neocortex 6 layers can be recognized although many regions lack one or more layers, fewer layers are present in the archipallium and the paleopallium.

What this means in terms of optimal artificial neural network architecture and parameters will be interesting to learn about; in regards to logic, reasoning, and inference.

According to "Cliques of Neurons Bound into Cavities Provide a Missing Link between Structure and Function" https://www.frontiersin.org/articles/10.3389/fncom.2017.0004... , the human brain appears to be [at most] 11-dimensional (11D); in terms of algebraic topology https://en.wikipedia.org/wiki/Algebraic_topology

Relatedly,

"Study shows how memories ripple through the brain" https://www.ninds.nih.gov/News-Events/News-and-Press-Release...

> The [NeuroGrid] team was also surprised to find that the ripples in the association neocortex and hippocampus occurred at the same time, suggesting the two regions were communicating as the rats slept. Because the association neocortex is thought to be a storage location for memories, the researchers theorized that this neural dialogue could help the brain retain information.

Chlorophytum comosum (spider plants) are good air-filtering houseplants that are also easy to take starts of: https://en.wikipedia.org/wiki/Chlorophytum_comosum

Houseplant: https://en.wikipedia.org/wiki/Houseplant

"Classical Verification of Quantum Computations" Mahadev. (2018)

https://arxiv.org/abs/1804.01082

https://www.arxiv-vanity.com/papers/1804.01082/

https://scholar.google.com/scholar?cluster=10138991277567750...