Chips
C/M ENERY CHIP COSTS 26
Likely under $25/15 on cost for a chip or $5-15 average with $25 being higher per chip on perpetual microchip Energy
If we do 50,000 X 4000 chips. 200 Million. $5 Billion at 25 per chip then all infrastructure we are under $10 Billion with under $100,000 in infrastructure maintenance with security then chip replacement every 5-15 years or longer. 4000 offers 10 Million kW in under 1 seconds
Block 11. Materials in. CIG infrastructure. Mostly automated fast printing. 4000 Chips in well under 7 days in a small facility
A goal is to cut material costs & processing with experimental space for manufacturing to drop to $0.05 - $99 cents on the dollar on a Standard 2500 kW chip
200 Million chips. Under 1 month if material supply exists stockpiled or demand based
These are perpetual motion Unlimited Range microchips for Energy Generation. Push button. Energy excess above use is generated for storage or, use
Smallest working 2500 kW chip. 2026 by Dr Sydney Nicola Bennett
1 Chip = 5mm x 35mm. 0.5cm - 0.05/1cm x 3.5cm (one available size at 2500 kW standard)
https://www.facebook.com/share/p/1C1NN1G7dj
Simple recharger on dyno + motion - idle charging sequences with mechanical - digital mapping scaled down
"Likely not requiring all of 1050 Sq Ft for a Standard Plant using Micro-Chipping yet thats the minimal set. We utilize wall grids & can integrate sheet mechanicals with additive Yields coming closer to 50,000 in a smaller space yet extending beyond a 1050 Sq Ft"
Canadian Dollars. Alberta
Taking the Earth to Net-Zero Energy
MATERIALS - INSERT IN - CHIP OUT
Automated chip-making factories are highly advanced, AI-driven cleanroom facilities (often 300mm wafer fabs) where robotics handle nearly all material transport, fabrication, and inspection to ensure nano-level precision and minimal contamination.
These "lights-out" facilities use overhead robotic buggies, Automated Material Handling Systems (AMHS), and AI-controlled lithography for over 1,000 production steps.
This video shows the inside of an automated chip factory, where robots and AI manage the production process:
Key features of automated chip factories include:
• Robotic Operations: Robots, such as KUKA cleanroom robots, handle wafer loading, unloading, and transportation within sterile environments.
• AI and Machine Learning: AI oversees 50,000+ sensors to predict equipment failures, optimize chemical flows, and correct misalignments in real time, reducing the need for human intervention.
• Material Transport: Automated overhead buggies travel miles daily, moving silicon wafers through various, precise stages of production, such as photolithography and etching.
• Inspection and Quality Control: Automated systems use AI-powered microscopes to detect defects at every stage, allowing for immediate process adjustments to reduce wasted materials.
• High-Volume Efficiency: These factories are designed for maximum efficiency, with companies like Micron and Texas Instruments employing these systems for 300mm wafer production.
Modern "smart" factories (Industry 4.0) like those used by Bosch or proposed by Tesla/SpaceX 'Terafab' (2026) aim to combine every step, from design to assembly, under one automated system to maximize yield and speed.
https://youtu.be/iUiH38KhKo4?si=CO2fq2_UFEniRFOE
CANADIAN ANNUAL ENERGY CONSUMPTION
Canada uses significantly more than 25 billion kWh of energy per year.
In fact, Canada’s annual electricity consumption is over 20 times higher than that figure. In 2020, Canada’s total electricity consumption was approximately 553 TWh (terawatt-hours), which is equal to 553 billion kWh.
Régie de l'énergie du Canada
Here are key statistics on Canadian energy consumption:
• Total Electricity Consumption: Canada is one of the world's largest consumers of electricity on a per-capita basis. Annual consumption is typically around 500–600 TWh (500–600 billion kWh).
• Sector Breakdown (2020):
• Industrial: ~230 TWh (230 billion kWh)
• Residential: ~177 TWh (177 billion kWh)
• Commercial: ~145 TWh (145 billion kWh)
• Per Capita Usage: In 2020, annual electricity consumption was 14.6 MWh (14,600 kWh) per person.
• Generation: Canada produces over 600 billion kWh of electricity annually, with 57% coming from hydroelectric sources.
Régie de l'énergie du Canada +4
Note: 1 TWh = 1 billion kWh.
Energy Micro-Chipping alongside Clean accumulation will take Canada off not renewables meeting 99-100% Net Zero through a Zero Cycle balancing effect with Zero Emissions
2500 x 1050 Sq Ft - X 20. 50,000 1050 Sq Ft Plants
$5-10 Billion. Lowest cost than Niagara Falls to manage all 50,000 units & C/M + partner R&D then taxation fee integrated with delivery fee for affordability tier for access to supply. Clean Energy
2,626,000 Sq Ft 25 Billion kW. Now times than by 20 & some additives. Stationary Energy is sorted & layered for affordability tiers. Clean domestic
Now we create a balanced assortment with cost - price managed effect domestically then Motion Energy transitions equal in all ways
C/M offers with externals the lowest cost & most reliable easiest to maintain equivlance
Instead of decommisioning hydroelectric options we integrate with expansion yields justifying while lowering maintenance costs
https://www.cer-rec.gc.ca/en/data-analysis/energy-markets/province-territory-energy-profiles/canada.html
C/M majority & minority profit sharing fees integrated
C/M MICRO CHIP-ENERGY
Experimental 10 Million kW Per-Second or under 1 Second
DR SYDNEY NICOLA BENNETT'S GOAL
1 Chip = 5mm x 35mm. 0.5cm - 0.5/1cm x 3.5cm (one available size at 2500 kW standard)
Simple recharger on dyno + motion - idle charging sequences with mechanical - digital mapping scaled down
4000 Chips
2,000mm x 14,000mm of material
200 cm (79 inches) x 1400 cm (551.5 inches)
Motion & Idle Energy engages integrated with speed - force sequencing
TOTAL PLANT SIZE 10.5 Ft X 50 Ft or 1050 Sq Ft
"Likely not requiring all of 1050 Sq Ft for a Standard Plant using Micro-Chipping yet thats the minimal set. We utilize wall grids & can integrate sheet mechanicals with additive Yields coming closer to 50,000 in a smaller space yet extending beyond a 1050 Sq Ft"
Lower cost than Niagara Falls USA - Canada to install & maintain Zero Emissions. Zero Cycle. Net Zero
A box size then small maintenance corridors to take chips offline - online in monitoring with 5-10+ year maintenance
Complimenting Hydroelectric, Geothermal, Hydrogen, C/M Perpetuals as Stationary Energy
Paint Shakers. It's an additive Energy Yield at C/M
If out of 100. Energy generated from 10 of 100 & you require 10 of 100 being 20 of 100 to replenish then your break even adding yeild us 80 for excess use or storage
Break even not adding & gains is perpetual options created by Dr Sydney Nicola Bennett
Thieves connected to NB-OT Labs & expansions have gone as far to threaten to delete credentials & erase or suppress paid for patents, copyright & trademark
Patents Per-Capita. External Reference
https://www.visualcapitalist.com/ranked-countries-patents-per-capita/
Shipping. External Reference
https://youtube.com/shorts/5Uz7-BMiZLg?si=jXC2r-uJUfMbwFG-
Hydrogen. V8..External Reference
https://youtu.be/-ZEZ7pejdaQ?si=B8mM9W50rdy3pPLu
EV Vs Hydrogen. External Reference
https://youtu.be/qiQcGdq66DI?si=Jm9mmmsW4OLaOyw7
Taking the Earth to Net-Zero Energy
Meta: Facebook C/M Cypress Motors
https://www.facebook.com/share/1G6UzRo8jW/
26. K.T-CIG
Comments
Post a Comment