summaryrefslogtreecommitdiff
diff options
context:
space:
mode:
-rw-r--r--hurd/ng/microkernelcoyotos.mdwn4
1 files changed, 2 insertions, 2 deletions
diff --git a/hurd/ng/microkernelcoyotos.mdwn b/hurd/ng/microkernelcoyotos.mdwn
index e6b2fe8e..cdf4e1bf 100644
--- a/hurd/ng/microkernelcoyotos.mdwn
+++ b/hurd/ng/microkernelcoyotos.mdwn
@@ -1,8 +1,8 @@
# <a name="The_Coyotos_microkernel"> The Coyotos microkernel </a>
-[Coyotos](http://www.coyotos.org/index.html) is a microkernel and OS and the successor of EROS, that itself is the successor of KeyKOS. A more complete history can be found [here](http://www.coyotos.org/history.html). Its main objectives are to correcte some shortcomings of EROS, demonstrate that an atomic kernel design scales well, and (eventually) to completely formally verify both the kernel and critical system components by writing them in a new language called bitc. [See [l4.verified](http://nicta.com.au/research/projects/l4.verified) for work on formally verifying an L4 microkernel.]
+[Coyotos](http://www.coyotos.org/index.html) is a microkernel and OS and the successor of EROS, that itself is the successor of KeyKOS. A more complete history can be found [here](http://www.coyotos.org/history.html). Its main objectives are to correcte some shortcomings of EROS, demonstrate that an atomic kernel design scales well, and (eventually) to completely formally verify both the kernel and critical system components by writing them in a new language called [bitc](http://www.bitc-lang.org/). [See [l4.verified](http://nicta.com.au/research/projects/l4.verified) for work on formally verifying an L4 microkernel.]
-Coyotos is an orthogonally persistent pure capability system. It uses continuation based unbuffered asynchronous IPC (actually it's synchronous IPC whith asynchronous syscalls).
+Coyotos is an orthogonally persistent pure capability system. It uses continuation based unbuffered asynchronous IPC (actually it's synchronous IPC with asynchronous syscalls).
TODO: explain these terms and (more important) their consequences on system design.