1. Aurora Semiconductor Proprietary
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TM
4DHSiP – A Disruptive Technology
Extending Moore’s Law
2. Aurora Semiconductor Proprietary
Total Cost of Moore’s Law
2
Total Design Costs require high volumes to justify the move to the next node
• Many markets cannot support the required volume preventing the move to the next node
• Die per unit area cost is more important than transistor density
$-
$50.00
$100.00
$150.00
$200.00
$250.00
$300.00
$350.00
$400.00
180nm 130nm 90 nm 40nm 28nm 14nm 7nm
Fab+Design/unit@1B TXTR vs Volume Sold
500,000 1,000,000 5,000,000 10,000,000 30,000,000 50,000,000
Moore’s law
slowing down
Moore’s
law stops
based on
volume
Moore’s law
breaks down
with current
technology
3. Aurora Semiconductor Proprietary
3
100B
10B
1B
2B
5B
20B
50B
2012 2013 2014 2015 2016 2017 2018 2019 2020
Xilinx Ultrascale
Intel Xeon Haswell
Transistor count Doubles every 24 months
• Following Moore’s law will
take ~3 years to catchup to
the where the 4DHSiP™ is
capable today with 5 layer
module stacking
• If we include heterogeneous
integration of technology
nodes and substrates the
gap widens
5X
4DHSiP™
Extending Moore’s Law