@@ -0,0 +1,70 @@
+* Preprocess, then train.
+* A training loop in motion outranks a perfect architecture that isn’t implemented.
+* A debugger with a stack trace outranks everyone else.
+* Regularization covers a multitude of overfitting sins.
+* Feature importance and data leakage should be easier to tell apart.
+* If increasing model complexity wasn’t your last resort, you failed to add enough layers.
+* If the accuracy is high enough, stakeholders will stop complaining about the compute costs.
+* Harsh critiques have their place—usually in the rejected pull requests.
+* Never turn your back on a deployed model.
+* Sometimes the only way out is through… through another epoch.
+* Every dataset is trainable—at least once.
+* A gentle learning rate turneth away divergence. Once the loss stabilizes, crank it up.
+* Do unto others’ hyperparameters as you would have them do unto yours.
+* “Innovative architecture” means never asking, “What’s the worst thing this could hallucinate?”
+* Only you can prevent vanishing gradients.
+* Your model is in the leaderboards: be sure it has dropout.
+* The longer training goes without overfitting, the bigger the validation-set disaster.
+* If the optimizer is leading from the front, watch for exploding gradients in the rear.
+* The field advances when you turn competitors into collaborators, but that’s not the same as your h-index advancing.
+* If you’re not willing to prune your own layers, you’re not willing to deploy.
+* Give a model a labeled dataset, and it trains for a day. Take its labels away and call it “self-supervised,” and it’ll generate new ones for you to validate tomorrow.
+* If you’re manually labeling data, somebody’s done something wrong.
+* Training loss and validation loss should be easier to tell apart.
+* Any sufficiently advanced algorithm is indistinguishable from a matrix multiplication.
+* If your model’s failure is covered by the SLA, you didn’t test enough edge cases.
+* “Fire-and-forget training” is fine, provided you never actually forget to monitor drift.
+* Don’t be afraid to be the first to try a random seed.
+* If the cost of cloud compute is high enough, you might get promoted for shutting down idle instances.
+* The enemy of my bias is my variance. No more. No less.
+* A little dropout goes a long way. The less you use, the further backpropagates.
+* Only overfitters prosper (temporarily).
+* Any model is production-ready if you can containerize it.
+* If you’re logging metrics, you’re being audited.
+* If you’re seeing NaN, you need a smaller learning rate.
+* That which does not break your model has made a suboptimal adversarial example.
+* When the loss plateaus, the wise call for more data.
+* There is no “overkill.” There is only “more epochs” and “CUDA out of memory.”
+* What’s trivial in Jupyter can still crash in production.
+* There’s a difference between spare GPUs and GPUs you’ve accidentally mined Ethereum on.
+* Not all NaN is a bug—sometimes it’s a feature.
+* “Do you have a checkpoint?” means “I can’t fix this training run.”
+* “They’ll never expect this activation function” means “I want to try something non-differentiable.”
+* If it’s a hack and it works, it’s still a hack and you’re lucky.
+* If it can parallelize inference, it can double as a space heater.
+* The size of the grant is inversely proportional to the reproducibility of the results.
+* Don’t try to save money by undersampling.
+* Don’t expect the data to cooperate in the creation of your dream benchmark.
+* If it ain’t overfit, it hasn’t been trained on enough epochs.
+* Every client is one missed deadline away from switching to AutoML, and every AutoML is one custom loss function away from becoming a client.
+* If it only works on the training set, it’s defective.
+* Let them see you tune the hyperparameters before you abandon the project.
+* The framework you’ve got is never the framework you want.
+* The data you’ve got is never the data you want.
+* It’s only too many layers if you can’t fit them in VRAM.
+* It’s only too many parameters if they’re multiplying NaNs.
+* Data engineers exist to format tables for people with real GPUs.
+* Reinforcement learning exists to burn through compute budgets on simulated environments.
+* The whiteboard is mightiest when it sketches architectures for more transformers.
+* “Two dropout layers is probably not going to be enough.”
+* A model’s inference time is inversely proportional to the urgency of the demo.
+* Don’t bring BERT into a logistic regression.
+* Any tensor labeled “output” is dangerous at both ends.
+* The CTO knows how to do it by knowing who Googled it.
+* An ounce of precision is worth a pound of recall.
+* After the merge, be the one with the main branch, not the one with the conflicts.
+* Necessity is the mother of synthetic data.
+* If you can’t explain it, cite the arXiv paper.
+* Deploying with confidence intervals doesn’t mean you shouldn’t also deploy with a kill switch.
+* Sometimes SOTA is a function of who had the biggest TPU pod.
+* Failure is not an option—it is mandatory. The option is whether to let failure be the last epoch or a learning rate adjustment.
\ No newline at end of file