And that's what I was speaking to up thread. Totally wasteful.
One (or more) layers up, we are not doing any computation via DNA. Maybe configuration and specification are better words for whatever does computation or some other task.
Imagine a sub-system. Maybe it's new sensory input, or some inherent comms interface or other we don't have as part of our nature right now.
If we think of DNA as some kind of Verilog, then:
Say I have a computer expressed in Verilog. I can push that to a chip, and that chip becomes that computer. Later, I want some additional computation capability, or I/O system, display, whatever. Just change the Verilog, and next push, that computer, being the same one a generation prior, now has this new thing.
So, we've got "human" expressed as DNA. Rather than compute with the actual DNA, expressing something that can compute is what I am getting at and in only the most general of ways.
The DNA basically makes an organism, or some functional bio-tech that is capable of computation, carrying electrical charge, do things we know biological systems can do. They have different strengths from electromechanical systems.
Our own brains are kind of slow, imprecise, but look at what they can do! What if a "coprocessor" of sorts could be woven in there? Or, maybe just an interface, form of comms that is not like the senses we have now.
Or maybe we leave ourselves alone. (good call, if you ask me), but we end up making living things, task based, maybe not even fully functional beings (probably also good call), that can interact with our existing systems.
Living neural nets for more advanced pattern recognition or memory recall, for example? Visualization?
That's where the real action / change is, IMHO.
And when I asked for speculation, I was kind of hoping people with this interest, or domain expertise might just riff on what such an idea may evoke in their thoughts, impressions, visions of what could come.
And that's what I was speaking to up thread. Totally wasteful.
One (or more) layers up, we are not doing any computation via DNA. Maybe configuration and specification are better words for whatever does computation or some other task.
Imagine a sub-system. Maybe it's new sensory input, or some inherent comms interface or other we don't have as part of our nature right now.
If we think of DNA as some kind of Verilog, then:
Say I have a computer expressed in Verilog. I can push that to a chip, and that chip becomes that computer. Later, I want some additional computation capability, or I/O system, display, whatever. Just change the Verilog, and next push, that computer, being the same one a generation prior, now has this new thing.
So, we've got "human" expressed as DNA. Rather than compute with the actual DNA, expressing something that can compute is what I am getting at and in only the most general of ways.
The DNA basically makes an organism, or some functional bio-tech that is capable of computation, carrying electrical charge, do things we know biological systems can do. They have different strengths from electromechanical systems.
Our own brains are kind of slow, imprecise, but look at what they can do! What if a "coprocessor" of sorts could be woven in there? Or, maybe just an interface, form of comms that is not like the senses we have now.
Or maybe we leave ourselves alone. (good call, if you ask me), but we end up making living things, task based, maybe not even fully functional beings (probably also good call), that can interact with our existing systems.
Living neural nets for more advanced pattern recognition or memory recall, for example? Visualization?
That's where the real action / change is, IMHO.
And when I asked for speculation, I was kind of hoping people with this interest, or domain expertise might just riff on what such an idea may evoke in their thoughts, impressions, visions of what could come.