![[decomp(productize()).png]] Given the structure and the focus on how startups allocate resources between bits and atoms based on the environment's atomness, here's how the remaining rows from "desired combining rate" to "desired pool" can be filled, reflecting the critical capabilities in each industry: Based on the discussion about how startups allocate resources between bits and atoms conditional on the industry's atomness, here's how the table can be filled: | | industry | first example: social science academia | second example: biotech | third example: semiconductor | fourth example: construction | structure of variables | | ---- | --------------- | -------------------------------------------------- | ---------------------------------- | --------------------------------------------- | --------------------------------------- | ----------------------------------- | | | agent | researcher | biotech startup | semiconductor startup | construction startup | entrepreneurial agent | | | environment | academia | biotech ecosystem | semiconductor ecosystem | construction ecosystem | entrepreneurial ecosystem | | POOL | `Need Pool` | phenomena | pain points in healthcare, disease | market needs, technological limitations | site surveys, materials testing | A FUNCTION OF(collecting need) | | | `Solution Pool` | theory | biotechnology | chip design, fabrication processes | materials, construction methods | A FUNCTION OF(collecting sol) | | | `Method Pool` | measurement | drug, molecule | manufacturing techniques, simulation software | construction planning, digital modeling | A FUNCTION OF(collecting method) | | | `Transp Pool` | publication in journal | distribution channels | logistics for chip delivery, IP sharing | material, equipment transport | A FUNCTION OF(collecting transport) | | TIME | | | | | | | | | Pairing Time | time to develop prototype idea | | | | | | | Production Time | time to produce research paper from prototype idea | | | | | | | Delivering Time | time to pass review and be published | | | | | | | Life Time | time to perish from market | | | | | | ACTION | | | | | | | | ------ | ----------------------- | -------------------------------------- | ---------------------------------- | --------------------------------------------- | ------------------------------------------ | -------------------------------------------------------------------------------------------------- | | | `need adj frac1` | adjustment based on digital feedback | adjustment based on clinical data | adjustment based on market feedback | adjustment based on project timelines | adjusting ENR = (obs demand - Expected Need Demand Rate) * need adj frac1 | | | `need adj frac2` | allocation towards digital platforms | allocation towards R&D, trials | balanced allocation for design and production | allocation towards construction activities | desired use = NonUsed NSP * need adj frac2 | | | `sol adj frac1` | digital method optimization | optimization of drug efficacy | optimization of chip efficiency | optimization of construction methods | | | | `sol adj frac2` | digital resource allocation strategy | allocation strategy for molecules | allocation strategy for fabrication resources | allocation strategy for building materials | | | | `sol adj frac3` | digital environment adaptation | adaptation to biotech advancements | adaptation to semiconductor industry changes | adaptation to construction standards | | | GOAL | | | | | | | | | `desired fleshing rate` | adjusting to research demands | adjusting to healthcare needs | adjusting to market demand | adjusting to project needs | `desired fleshing rate = adjusting product + Expected Need Demand Rate` | | | `desired product` | digital content production | drug development speed | chip production rate | construction project completion rate | `desired product = Expected Need Demand Rate * (1/Prod2Use frac6 + 1/Safety stock coverage frac7)` | | | `desired use` | digital tools usage for research | biotech tools for diagnostics | semiconductor tools for testing | construction tools for efficiency | `desired use = NonUsed NSP * need adj frac2` | | | `desired pool` | resources for digital research | resources for biotech experiments | resources for chip prototypes | resources for construction projects | `desired pool = desired fleshing rate / Concept2Prod frac4` | | industry | structure of variables | first example: social science academia | second example: biotech | third example: semiconductor | fourth example: construction | | ------------------------------------------------------- | -------------------------------------------------------------------------------------------------- | -------------------------------------- | ---------------------------------- | ---------------------------- | ---------------------------- | | `Need Pool` | A FUNCTION OF(collecting need) | phenomena | pain points in healthcare, disease | | | | `Solution Pool` | A FUNCTION OF(collecting sol) | theory | biotechnology | | | | `Method Pool` | A FUNCTION OF(collecting method) | measurement | drug, molecule | | | | `Transp Pool` | A FUNCTION OF(collecting transport) | publication in journel | distributing channel | | | | | | | | | | | `need adj frac1`![[Pasted image 20240229162006.png]] | adjusting ENR = (obs demand - Expected Need Demand Rate) * need adj frac1 | | | | | | `need adj frac2`![[Pasted image 20240229161829.png]] | desired use = NonUsed NSP * need adj frac2 | | | | | | `sol adj frac1`<br>![[Pasted image 20240229162243.png]] | | | | | | | `sol adj frac2`<br>![[Pasted image 20240229162232.png]] | | | | | | | `sol adj frac3`<br>![[Pasted image 20240229162153.png]] | | | | | | | agent | entrepreneurial agent | researcher | biotech startup | semiconductor startup | construction startup | | environment | enviornment | academia | biotech ecosystem | semiconductor ecosystem | construction ecosystem | | desired combining rate | `desired combining rate = MAX(0, desired fleshing rate + adjusting pool)` | | | | | | desired fleshing rate | `desired fleshing rate = adjusting product + Expected Need Demand Rate` | | | | | | desired product | `desired product = Expected Need Demand Rate * (1/Prod2Use frac6 + 1/Safety stock coverage frac7)` | | | | | | desired use | `desired use = NonUsed NSP * need adj frac2`<br> | | | | | | desired pool | `desired pool = desired fleshing rate / Concept2Prod frac4` | | | | | ### 1. Variables Including "Pool" - `Need Pool` - `Solution Pool` - `Method Pool` - `Transp Pool` ### 2. Variables Including "adj frac" - `need adj frac1` - `sol adj frac3` - `sol adj frac2` - `need adj frac2` ### 3. Variables Including "desired" - `desired combining rate` - `desired fleshing rate` - `desired product` - `desired use` - `desired pool`