Achronix Semiconductor in Talks for Merger...

HT-Lab · Nov 21, 2021

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:

On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic.

No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com

Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.
>

HT-Lab · Nov 21, 2021

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:

On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic.

No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com

Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.
>

HT-Lab · Nov 21, 2021

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:

On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic.

No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com

Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.
>

HT-Lab · Nov 21, 2021

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:

On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic.

No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com

Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.
>

HT-Lab · Nov 21, 2021

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:

On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic.

No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com

Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.
>

gnuarm.del...@gmail.com · Nov 21, 2021

On Saturday, January 9, 2021 at 4:31:18 AM UTC-5, HT-Lab wrote:

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:
On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic..
No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com
Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.

Do you have any info from Achronix regarding this? While the technique is not uncommon in various devices, I don\'t think they are very large pieces of logic. If they aren\'t large, is it really important to have the fastest technology in them (which is the Achronix advantage)?

There was a device made by a European chip company that had embedded FPGA. I never saw anything about it being to \"fix\" the chip.

If the chip is being used for prototyping, that is entirely different and not an ASIC at all. Why design a chip to debug the chip you are going to design? What they do talk about at the Achronix web site is lots and lots of \"networking\" and some very high speed interfaces. Rather than fixings oppsies, I expect they are supporting leaving portions of the your ASIC to be implemented in gate software rather than hard wiring. That would seem to make a lot more sense.

--

Rick C.

-+ Get 1,000 miles of free Supercharging
-+ Tesla referral code - https://ts.la/richard11209

gnuarm.del...@gmail.com · Nov 21, 2021

On Saturday, January 9, 2021 at 4:31:18 AM UTC-5, HT-Lab wrote:

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:
On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic..
No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com
Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.

Do you have any info from Achronix regarding this? While the technique is not uncommon in various devices, I don\'t think they are very large pieces of logic. If they aren\'t large, is it really important to have the fastest technology in them (which is the Achronix advantage)?

There was a device made by a European chip company that had embedded FPGA. I never saw anything about it being to \"fix\" the chip.

If the chip is being used for prototyping, that is entirely different and not an ASIC at all. Why design a chip to debug the chip you are going to design? What they do talk about at the Achronix web site is lots and lots of \"networking\" and some very high speed interfaces. Rather than fixings oppsies, I expect they are supporting leaving portions of the your ASIC to be implemented in gate software rather than hard wiring. That would seem to make a lot more sense.

--

Rick C.

-+ Get 1,000 miles of free Supercharging
-+ Tesla referral code - https://ts.la/richard11209

gnuarm.del...@gmail.com · Nov 21, 2021

On Saturday, January 9, 2021 at 4:31:18 AM UTC-5, HT-Lab wrote:

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:
On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic..
No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com
Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.

Do you have any info from Achronix regarding this? While the technique is not uncommon in various devices, I don\'t think they are very large pieces of logic. If they aren\'t large, is it really important to have the fastest technology in them (which is the Achronix advantage)?

There was a device made by a European chip company that had embedded FPGA. I never saw anything about it being to \"fix\" the chip.

If the chip is being used for prototyping, that is entirely different and not an ASIC at all. Why design a chip to debug the chip you are going to design? What they do talk about at the Achronix web site is lots and lots of \"networking\" and some very high speed interfaces. Rather than fixings oppsies, I expect they are supporting leaving portions of the your ASIC to be implemented in gate software rather than hard wiring. That would seem to make a lot more sense.

--

Rick C.

-+ Get 1,000 miles of free Supercharging
-+ Tesla referral code - https://ts.la/richard11209

gnuarm.del...@gmail.com · Nov 21, 2021

On Saturday, January 9, 2021 at 4:31:18 AM UTC-5, HT-Lab wrote:

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:
On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic..
No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com
Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.

Do you have any info from Achronix regarding this? While the technique is not uncommon in various devices, I don\'t think they are very large pieces of logic. If they aren\'t large, is it really important to have the fastest technology in them (which is the Achronix advantage)?

There was a device made by a European chip company that had embedded FPGA. I never saw anything about it being to \"fix\" the chip.

If the chip is being used for prototyping, that is entirely different and not an ASIC at all. Why design a chip to debug the chip you are going to design? What they do talk about at the Achronix web site is lots and lots of \"networking\" and some very high speed interfaces. Rather than fixings oppsies, I expect they are supporting leaving portions of the your ASIC to be implemented in gate software rather than hard wiring. That would seem to make a lot more sense.

--

Rick C.

-+ Get 1,000 miles of free Supercharging
-+ Tesla referral code - https://ts.la/richard11209

gnuarm.del...@gmail.com · Nov 21, 2021

On Saturday, January 9, 2021 at 4:31:18 AM UTC-5, HT-Lab wrote:

On 08/01/2021 18:46, gnuarm.del...@gmail.com wrote:
On Friday, January 8, 2021 at 7:37:33 AM UTC-5, HT-Lab wrote:
On 07/01/2021 22:24, Kevin Neilson wrote:
On Wednesday, January 6, 2021 at 11:35:39 AM UTC-7, gnuarm.del...@gmail.com wrote:
An IPO of sorts really. They would merge with ACE Convergence Acquisition Corp NASDAQ: ACEV and this company would be seeking investors.

Achronix has been profitable, so this should be a good deal. I\'m looking to buy in.

--

Rick C.

- Get 1,000 miles of free Supercharging
- Tesla referral code - https://ts.la/richard11209

These IPOs done through SPACs are trying to take advantage of market exuberance which will surely pass at some point. It might be easy to get burned when everything turns. I\'m suspicious of new fads in the dark financial arts.

I don\'t know much about Achronix, except that I believe they no longer use any of the asynchronous architecture on which they were originally based. Maybe they should change their name to Chronix? But that sounds like Dr. Dre album or a persistent disease. I\'m not sure how they survive in a market ruled by the duopoly,
They moved to a different market, their main product is an embedded FPGA
IP core (and associated expensive to develop backend tools). Given the
cost of making an ASIC/SoC and time to market pressures it makes sense
to add some reconfigurable bits so you can fix some \"oopses\" and add
features after tape-out.

I don\'t think it is the \"oopsies\" problem they are addressing. If you have an \"oopsie\" it is unlikely to be fixable with a separate piece of logic..
No that is exactly what it is used for. By adding bypass logic to an
\"eFPGA\" there is a good change you can fix bugs after tape-out. And yes
designers do know which blocks are most likely to have issues.

This is obviously not new, microprocessor manufacturers have been doing
this for decades. I am always amazed at the issues AMD and Intel can fix
after tape-out, I am sure the patched microcode is not just some simple
ROM code that changes the instruction sequencer.

Hans
www.ht-lab.com
Allowing an ASIC user to add a bit of logic to the device or even a
custom coprocessor can be very useful. I seem to recall someone
offering such a chip once, but I don\'t recall any details. It never
made it to a general market that I know of. I suspect it was mostly
sold to OEMs with high volumes. Often FPGAs are used as prototyping
devices and that may have been how this was used.

Do you have any info from Achronix regarding this? While the technique is not uncommon in various devices, I don\'t think they are very large pieces of logic. If they aren\'t large, is it really important to have the fastest technology in them (which is the Achronix advantage)?

There was a device made by a European chip company that had embedded FPGA. I never saw anything about it being to \"fix\" the chip.

If the chip is being used for prototyping, that is entirely different and not an ASIC at all. Why design a chip to debug the chip you are going to design? What they do talk about at the Achronix web site is lots and lots of \"networking\" and some very high speed interfaces. Rather than fixings oppsies, I expect they are supporting leaving portions of the your ASIC to be implemented in gate software rather than hard wiring. That would seem to make a lot more sense.

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Rick C.

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Theo · Nov 21, 2021